Implants and methods of use and assembly

ABSTRACT

Implants, devices, and methods for maintaining, correcting and/or fusing joint deformities are disclosed. The implant a first member, a second member, and an insert with a top surface and a bottom surface. The top surface couples to the first member and the bottom surface engages the second member. Kits and methods of using the implants for maintaining, correcting and/or fusing joint deformities are also disclosed.

CROSS REFERENCE TO RELATED APPLICATION

This application is a continuation of U.S. application Ser. No.16/949,310 filed on Oct. 24, 2020 and entitled Implants and Methods ofUse and Assembly, which issues as U.S. Pat. No. 11,219,530 on Jan. 11,2022, which is a continuation-in-part of International Application No.PCT/US2019/029009 filed on Apr. 24, 2019 and entitled Implants andMethods of Use and Assembly, which claims priority benefit under 35U.S.C. § 119(e) to U.S. provisional application No. 62/661,945 filed onApr. 24, 2018 and entitled Implants and Methods of Use and Assembly,which are incorporated herein by reference in their entireties.

TECHNICAL FIELD

The present disclosure relates generally to general, podiatric, andorthopaedic surgery related to joint deformities. More specifically, butnot exclusively, the present disclosure relates to implants, devices,and methods for maintaining, correcting and/or resurfacing jointsurfaces.

BACKGROUND OF THE INVENTION

Currently available implants for total ankle replacement may experienceloosening of the tibial component. In addition, some currently availableimplants for total ankle replacement may cause stress concentrations inthe medial malleolus. In other currently available implants for totalankle replacement, the sizing of the talus component lacks proper bonecoverage. Finally, some currently available implants for total anklereplacement lack vertical stabilization features on the tibia.

Accordingly, it is an object of the present invention to overcome one ormore of the above-described drawbacks and/or disadvantages of thecurrently used implants. For example, in view of the deficiencies of thecurrent implants, it would be desirable to develop implants, devices,and/or systems which avoid loosening of the tibial component, remove thestress concentration from the medial malleolus, provide proper coverageof the talus bone, and provide features for vertical stabilization ofthe tibia.

SUMMARY OF THE INVENTION

The present disclosure is directed toward implants, devices and methodsfor use in maintaining, correcting and/or resurfacing joint surfaces.

In one aspect of the present disclosure provided herein, is an implant.The implant including a first member, a second member, and an insertwith a top surface and a bottom surface, wherein the top surface couplesto the first member and the bottom surface engages the second member.

In another aspect of the present disclosure provided herein, is methodfor using the implant. The method includes obtaining an implant. Theimplant includes a first member, a second member, and an insert with atop surface and a bottom surface. The top surface of the insert couplesto the first member and the bottom surface of the insert engages thesecond member. The method also includes making an incision to expose ajoint with a first bone and a second bone and preparing the bones forreceiving the implant. The method further includes coupling the firstmember to the first bone and the second member to the second bone. Inaddition, the method includes inserting a second end of the insert intoa first end of the first member. Then, the method includes closing theincision.

In yet another aspect of the present disclosure provided herein, is akit. The kit including a plurality of first members of an implant,wherein the first members include a top surface and a bottom surface, aplurality of second members of the implant, wherein the second membersinclude a top surface and a bottom surface, and a plurality of insertsof the implant, wherein the plurality of inserts include a top surfaceand a bottom surface. The top surface of each of the plurality of firstmembers includes a radius and the radius is the same for each of thefirst members and the bottom surface of each of the plurality of secondmembers has the same dimensions for each of the second members.

These and other objects, features and advantages of this disclosure willbecome apparent from the following detailed description of the variousaspects of the disclosure taken in conjunction with the accompanyingdrawings.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of the specification, illustrate embodiments of the disclosure andtogether with the detailed description herein, serve to explain theprinciples of the disclosure. It is emphasized that, in accordance withthe standard practice in the industry, various features are not drawn toscale. In fact, the dimensions of the various features may bearbitrarily increased or reduced for clarity of discussion. The drawingsare only for purposes of illustrating preferred embodiments and are notto be construed as limiting the disclosure.

FIG. 1 is a first perspective view of one embodiment of an implant, inaccordance with an aspect of the present disclosure;

FIG. 2 is a second perspective view of the implant of FIG. 1, inaccordance with an aspect of the present disclosure;

FIG. 3 is a top view of the implant of FIG. 1, in accordance with anaspect of the present disclosure;

FIG. 4 is a bottom view of the implant of FIG. 1, in accordance with anaspect of the present disclosure;

FIG. 5 is a first side view of the implant of FIG. 1, in accordance withan aspect of the present disclosure;

FIG. 6 is a second side view of the implant of FIG. 1, in accordancewith an aspect of the present disclosure;

FIG. 7 is a first end view of the implant of FIG. 1, in accordance withan aspect of the present disclosure;

FIG. 8 is a second end view of the implant of FIG. 1, in accordance withan aspect of the present disclosure;

FIG. 9 is a first exploded, perspective view of the implant of FIG. 1,in accordance with an aspect of the present disclosure;

FIG. 10 is a second exploded, perspective view of the implant of FIG. 1,in accordance with an aspect of the present disclosure;

FIG. 11 is an exploded, first end view of the implant of FIG. 1, inaccordance with an aspect of the present disclosure;

FIG. 12 is an exploded, second end view of the implant of FIG. 1, inaccordance with an aspect of the present disclosure;

FIG. 13 is an exploded, first side view of the implant of FIG. 1, inaccordance with an aspect of the present disclosure;

FIG. 14 is an exploded, second side view of the implant of FIG. 1, inaccordance with an aspect of the present disclosure;

FIG. 15 is an exploded, top view of the implant of FIG. 1, in accordancewith an aspect of the present disclosure;

FIG. 16 is an exploded, bottom of the implant of FIG. 1, in accordancewith an aspect of the present disclosure;

FIG. 17 depicts a method of inserting the implant of FIG. 1 into ajoint, in accordance with an aspect of the present invention;

FIG. 18 is a first perspective view of an embodiment of an implant, inaccordance with an aspect of the present disclosure;

FIG. 19 is a second perspective view of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 20 is a top view of the implant of FIG. 18, in accordance with anaspect of the present disclosure;

FIG. 21 is a bottom view of the implant of FIG. 18, in accordance withan aspect of the present disclosure;

FIG. 22 is a first side view of the implant of FIG. 18, in accordancewith an aspect of the present disclosure;

FIG. 23 is a second side view of the implant of FIG. 18, in accordancewith an aspect of the present disclosure;

FIG. 24 is a first end view of the implant of FIG. 18, in accordancewith an aspect of the present disclosure;

FIG. 25 is a second end view of the implant of FIG. 18, in accordancewith an aspect of the present disclosure;

FIG. 26 is a first exploded, perspective view of the implant of FIG. 18,in accordance with an aspect of the present disclosure;

FIG. 27 is a second exploded, perspective view of the implant of FIG.18, in accordance with an aspect of the present disclosure;

FIG. 28 is an exploded, first end view of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 29 is an exploded, second end view of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 30 is an exploded, first side view of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 31 is an exploded, second side view of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 32 is an exploded, top view of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 33 is an exploded, bottom view of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 34 is a first end view of a first member of the implant of FIG. 18,in accordance with an aspect of the present disclosure;

FIG. 35 is a top view of the first member of the implant of FIG. 18, inaccordance with an aspect of the present disclosure;

FIG. 36 is a first perspective view of an embodiment of an implant, inaccordance with an aspect of the present disclosure;

FIG. 37 is a second perspective view of the implant of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 38 is a top view of the implant of FIG. 36, in accordance with anaspect of the present disclosure;

FIG. 39 is a bottom view of the implant of FIG. 36, in accordance withan aspect of the present disclosure;

FIG. 40 is a first side view of the implant of the of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 41 is a second side view of the implant of FIG. 36, in accordancewith an aspect of the present disclosure;

FIG. 42 is a first end view of the implant of FIG. 36, in accordancewith an aspect of the present disclosure;

FIG. 43 is a second end view of the implant of FIG. 36, in accordancewith an aspect of the present disclosure;

FIG. 44 is a first exploded, perspective view of the implant of FIG. 36,in accordance with an aspect of the present disclosure;

FIG. 45 is a second exploded, perspective view of the implant FIG. 36,in accordance with an aspect of the present disclosure;

FIG. 46 is an exploded, first end view of the implant of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 47 is an exploded, second end view of the implant of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 48 is an exploded, first side view of the implant of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 49 is an exploded, second side view of the implant of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 50 is an exploded, top view of the implant of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 51 is an exploded, bottom view of the implant of FIG. 36, inaccordance with an aspect of the present disclosure;

FIG. 52 is a first perspective view of an implant, in accordance with anaspect of the present disclosure;

FIG. 53 is a second perspective view of the implant of FIG. 52, inaccordance with an aspect of the present disclosure;

FIG. 54 is a first side view of the implant of FIG. 52, in accordancewith an aspect of the present disclosure;

FIG. 55 is a second side view of the implant of FIG. 52, in accordancewith an aspect of the present disclosure;

FIG. 56 is an exploded, first perspective view of an insert of theimplant of FIG. 52, in accordance with an aspect of the presentdisclosure;

FIG. 57 is an exploded, second perspective view of the insert of FIG.56, in accordance with an aspect of the present disclosure;

FIG. 58 is a first end view of the insert of FIG. 56, in accordance withan aspect of the present disclosure;

FIG. 59 is a second end view of the insert of FIG. 56, in accordancewith an aspect of the present disclosure;

FIG. 60 is a first side view of the insert of FIG. 56, in accordancewith an aspect of the present disclosure;

FIG. 61 is a second side view of the insert of FIG. 56, in accordancewith an aspect of the present disclosure;

FIG. 62 is a top view of the insert of FIG. 56, in accordance with anaspect of the present disclosure;

FIG. 63 is a bottom view of the insert of FIG. 56, in accordance with anaspect of the present disclosure;

FIG. 64 is a first perspective view of an implant, in accordance with anaspect of the present disclosure;

FIG. 65 is a second perspective view of the implant of FIG. 64, inaccordance with an aspect of the present disclosure;

FIG. 66 is a first side view of the implant of FIG. 64, in accordancewith an aspect of the present disclosure;

FIG. 67 is a second side view of the implant of FIG. 64, in accordancewith an aspect of the present disclosure;

FIG. 68 is a first perspective view of another insert of the implant ofFIG. 64, in accordance with an aspect of the present disclosure;

FIG. 69 is a second perspective view of another insert of the implantFIG. 64, in accordance with an aspect of the present disclosure;

FIG. 70 is a first end view of the insert of FIG. 69, in accordance withan aspect of the present disclosure;

FIG. 71 is a second end view of the insert of the implant of FIG. 64, inaccordance with an aspect of the present disclosure;

FIG. 72 is a first side view of the insert of the implant of FIG. 64, inaccordance with an aspect of the present disclosure;

FIG. 73 is a second side view of the insert of the implant of FIG. 64,in accordance with an aspect of the present disclosure;

FIG. 74 is a top view of the insert of the implant of FIG. 64, inaccordance with an aspect of the present disclosure;

FIG. 75 is a bottom view of the insert of the implant of FIG. 64, inaccordance with an aspect of the present disclosure;

FIG. 76 is a first perspective view of an implant, in accordance with anaspect of the present disclosure;

FIG. 77 is a second perspective view of the implant of FIG. 76, inaccordance with an aspect of the present disclosure;

FIG. 78 is a top view of the implant of FIG. 76, in accordance with anaspect of the present disclosure;

FIG. 79 is a bottom view of the implant of FIG. 76, in accordance withan aspect of the present disclosure;

FIG. 80 is a first side view of the implant of FIG. 76, in accordancewith an aspect of the present disclosure;

FIG. 81 is a second side view of the implant of FIG. 76, in accordancewith an aspect of the present disclosure;

FIG. 82 is a first end view of the implant of FIG. 76, in accordancewith an aspect of the present disclosure;

FIG. 83 is a second end view of the implant of FIG. 76, in accordancewith an aspect of the present disclosure;

FIG. 84 is an exploded, first perspective view of the implant of FIG.76, in accordance with an aspect of the present disclosure;

FIG. 85 is an exploded, second perspective view of the implant of FIG.76, in accordance with an aspect of the present disclosure;

FIG. 86 is an exploded, first end view of the implant of FIG. 76, inaccordance with an aspect of the present disclosure;

FIG. 87 is an exploded, second end view of the implant of FIG. 76, inaccordance with an aspect of the present disclosure;

FIG. 88 is an exploded, first side view of the implant of FIG. 76, inaccordance with an aspect of the present disclosure;

FIG. 89 is an exploded, second view of the implant of FIG. 76, inaccordance with an aspect of the present disclosure;

FIG. 90 is an exploded, top view of the implant of FIG. 76, inaccordance with an aspect of the present disclosure;

FIG. 91 is an exploded, bottom view of the implant of FIG. 76, inaccordance with an aspect of the present disclosure;

FIG. 92 is an exploded, first perspective view of an implant kit, inaccordance with an aspect of the present disclosure;

FIG. 93 is an exploded, second perspective view of the implant kit ofFIG. 92, in accordance with an aspect of the present disclosure;

FIG. 94 is an exploded, first end view of the implant kit of FIG. 92, inaccordance with an aspect of the present disclosure;

FIG. 95 is an exploded, second end view of the implant kit of FIG. 92,in accordance with an aspect of the present disclosure;

FIG. 96 is an exploded, first side view of the implant kit of FIG. 92,in accordance with an aspect of the present disclosure;

FIG. 97 is an exploded, second side view the implant kit of FIG. 92, inaccordance with an aspect of the present disclosure;

FIG. 98 is a first perspective view of an embodiment of an implant, inaccordance with an aspect of the present disclosure;

FIG. 99 is a second perspective view of the implant of FIG. 98, inaccordance with an aspect of the present disclosure;

FIG. 100 is a top view of the implant of FIG. 98, in accordance with anaspect of the present disclosure;

FIG. 101 is a bottom view of the implant of FIG. 98, in accordance withan aspect of the present disclosure;

FIG. 102 is a first side view of the implant of FIG. 98, in accordancewith an aspect of the present disclosure;

FIG. 103 is a second side view of the implant of FIG. 98, in accordancewith an aspect of the present disclosure;

FIG. 104 is a first end view of the implant of FIG. 98, in accordancewith an aspect of the present disclosure;

FIG. 105 is a second end view of the implant of FIG. 98, in accordancewith an aspect of the present disclosure;

FIG. 106 is an exploded, first perspective view of the implant of FIG.98, in accordance with an aspect of the present disclosure;

FIG. 107 is an exploded, second perspective view of the implant of FIG.98, in accordance with an aspect of the present disclosure;

FIG. 108 is an exploded, first end view of the implant of FIG. 98, inaccordance with an aspect of the present disclosure;

FIG. 109 is an exploded, second end view of the implant of FIG. 98, inaccordance with an aspect of the present disclosure;

FIG. 110 is an exploded, first side view of the implant of FIG. 98, inaccordance with an aspect of the present disclosure;

FIG. 111 is an exploded, second side view of the implant of FIG. 98, inaccordance with an aspect of the present disclosure;

FIG. 112 is an exploded, top view of the implant of FIG. 98, inaccordance with an aspect of the present disclosure;

FIG. 113 is an exploded, bottom view of the implant of FIG. 98, inaccordance with an aspect of the present disclosure;

FIG. 114 is a perspective view a second member of an implant showing thearticulation paths, in accordance with an aspect of the presentdisclosure;

FIG. 115 is a top view of the second member of FIG. 114, in accordancewith an aspect of the present disclosure;

FIG. 116 is a side view of the second member of FIG. 114, in accordancewith an aspect of the present disclosure;

FIG. 117 is a first perspective view of the second member of FIG. 114showing the axes of the articulation paths, in accordance with an aspectof the present disclosure;

FIG. 118 is a second perspective view of the second member of FIG. 117,in accordance with an aspect of the present disclosure;

FIG. 119 is a first side view of the second member of FIG. 117, inaccordance with an aspect of the present disclosure;

FIG. 120 is a second side view of the second member of FIG. 117, inaccordance with an aspect of the present disclosure;

FIG. 121 is a first end view of the second member of FIG. 117, inaccordance with an aspect of the present disclosure;

FIG. 122 is a second end view of the second member of FIG. 117, inaccordance with an aspect of the present disclosure;

FIG. 123 is a perspective view of the first member of the implant ofFIG. 36, in accordance with an aspect of the present disclosure; and

FIG. 124 is a cross-sectional side view of the first member of FIG. 123taken along line 124-124, in accordance with an aspect of the presentdisclosure.

DETAILED DESCRIPTION FOR CARRYING OUT THE INVENTION

Generally stated, disclosed herein are devices, systems, and methods formaintaining, correcting and/or resurfacing joint surfaces. Further,methods for using the implants, devices, and methods for maintaining,correcting and/or resurfacing joint surfaces are discussed.

In this detailed description and the following claims, the wordsproximal, distal, anterior or plantar, posterior or dorsal, medial,lateral, superior and inferior are defined by their standard usage forindicating a particular part or portion of a bone or implant accordingto the relative disposition of the natural bone or directional terms ofreference. For example, “proximal” means the portion of a device orimplant nearest the torso, while “distal” indicates the portion of thedevice or implant farthest from the torso. As for directional terms,“anterior” is a direction towards the front side of the body,“posterior” means a direction towards the back side of the body,“medial” means towards the midline of the body, “lateral” is a directiontowards the sides or away from the midline of the body, “superior” meansa direction above and “inferior” means a direction below another objector structure. Further, specifically in regards to the foot, the term“dorsal” refers to the top of the foot and the term “plantar” refers thebottom of the foot.

Similarly, positions or directions may be used herein with reference toanatomical structures or surfaces. For example, as the current devices,systems, instrumentation and methods are described herein with referenceto use with the bones of the ankle, the bones of the foot, ankle andlower leg may be used to describe the surfaces, positions, directions ororientations of the devices, systems, instrumentation and methods.Further, the devices, systems, instrumentation and methods, and theaspects, components, features and the like thereof, disclosed herein aredescribed with respect to one side of the body for brevity purposes.However, as the human body is relatively symmetrical or mirrored about aline of symmetry (midline), it is hereby expressly contemplated that thedevices, systems, instrumentation and methods, and the aspects,components, features and the like thereof, described and/or illustratedherein may be changed, varied, modified, reconfigured or otherwisealtered for use or association with another side of the body for a sameor similar purpose without departing from the spirit and scope of thedisclosure. For example, the devices, systems, instrumentation andmethods, and the aspects, components, features and the like thereof,described herein with respect to the right leg may be mirrored so thatthey likewise function with the left leg. Further, the devices, systems,instrumentation and methods, and the aspects, components, features andthe like thereof, disclosed herein are described with respect to theankle for brevity purposes, but it should be understood that thedevices, systems, instrumentation and methods may be used with otherbones of the body having similar structures.

Referring to the drawings, wherein like reference numerals are used toindicate like or analogous components throughout the several views, andwith particular reference to FIGS. 1-16, there is illustrated an implant100. The implant 100 includes a first member or tibia base 110, aninsert 150, and a second member, talus component, or articulating member200. The insert 150 includes a top surface 160 and a bottom surface 162.The top surface 160 of the insert 150 couples to the first member 110and the bottom surface 162 engages the second member 200.

As shown in FIGS. 9-16, the first member 110 includes a first end oranterior end 112 opposite a second end or posterior end 114. The firstmember 110 also includes a first side or medial side 116 opposite asecond side or lateral side 118. In addition, the first member 110includes a top surface 120 opposite a bottom surface 122. The topsurface 120 may include, for example, an arc shape or curvatureextending between the first side 116 and the second side 118, as shownin FIGS. 7, 8, 11 and 12. The curvature may have, for example, an arcradius ranging from approximately 35 mm to 70 mm. In an alternativeembodiment, the top surface 120 of the first member 110 may be, forexample, flat as the top surface 120 extends between the first side 116and the second side 118.

With continued reference to FIGS. 7, 8, 11, and 12, the top surface 120of the first member 110 may also include, for example, sloped, tapered,or angled sides on the first side 116 and the second side 118 of thefirst member 110. The angle of the sides of the top surface 120 at thefirst and second sides 116, 118 may be, for example, approximately 8° to15° from vertical and more specifically approximately 10° from vertical.The edges of the first and second sides 116, 118 of the first member 110may be, for example, rounded or curved. The rounded edges may have, forexample, a radii of approximately 1.25 mm to 2.4 mm and morespecifically approximately 1.75 mm to 2.4 mm. The first member 110 mayhave an outer perimeter shape that may be, for example, a quadrilateralshape, such as, a generally trapezoidal shape from a top or bottom view,as shown in FIGS. 3, 4, 15, and 16. The first and second sides 116, 118may be generally parallel and the first end 112 and second end 114 maybe, for example, angled or curved as they extend from the first side 116to the second side 118. In an embodiment, the length of the first ormedial side 116 may be, for example, shorter than the length of thesecond or lateral side 118. The angle of the first end 112 may be, forexample, smaller than the angle of the second end 114. The top surface120, first side 116 and second side 118 may be, for example, textured orcoated to provide a friction-stabilization surface and to allow for boneon-growth. The textured surface may be, for example, plasma sprayedbiocompatible material, such as, commercially-pure titanium, or anotherbiocompatible material as known by one of ordinary skill in the art.

With continued reference to FIGS. 9-16, the top surface 120 of the firstmember 110 includes at least one peg or vertical peg 124 extending awayfrom the top surface 120. The top surface 120 of the first member 110also includes at least one protrusion, spike, pyramid, or cone 126extending away from the top surface 120. The at least one protrusion 126may be, for example, spaced from the at least one peg 124. The at leastone protrusion 126 may be, for example, four protrusions 126, althoughalternative numbers of protrusions 126 are also contemplated. Theprotrusions 126 may be, for example, positioned equally spaced aroundthe at least one peg 124. The at least one peg 124 and at least oneprotrusion 126 may not be, for example, textured, rather the at leastone peg 124 and at least one protrusion 126 may be smooth to decreasebone resorption at the resection level.

Referring now to FIGS. 10 and 16, the bottom surface 122 of the firstmember 110 is shown. The bottom surface 122 includes a recessed regionor engagement region 128 extending into the first member 110 from thebottom surface 122 toward the top surface 120. The first member 110 maycome in multiple sizes for use with patient's having different sizetibia bones and the recessed region 128 of each of the first members 110will be, for example, sized and shaped the same to allow for replacementof the first member 110 as needed. The bottom surface 122 also includesan engagement channel 130 extending from the first end 112 into therecessed region 128. In addition, the bottom surface 122 of the firstmember 110 includes a first engagement feature or first female dovetailportion 132 extending from the first side 116 into the recessed region128, a second engagement feature or second female dovetail portion 134extending from the second side 118 into the recessed region 128, and athird engagement feature or third female dovetail portion 136 extendingfrom a position near the second end 114 into the recessed region 128.The bottom surface 122 of the first member 110 also includes a slot orremoval engagement feature 138 and a locking groove 140 positionedadjacent to the slot 138. The slot 138 may be, for example, angled asthe slot 138 extends from the first end 112 toward the locking groove140.

Referring now to FIGS. 1-16, the second member, talus component orarticulating member 200 has a first end or anterior end 202 opposite asecond end or posterior end 204. The second member 200 also has a firstside or medial side 206 opposite a second side or lateral side 208. Inaddition, the second member 200 has a top surface or articulatingsurface 210 opposite a bottom surface or bone engagement surface 212.The second member 200 may have, for example, a trapezium shape, as shownin FIGS. 15 and 16. The first and second sides 206, 208 may be, forexample, angled as the sides 206, 208 extend from the first end 202 tothe second end 204. The sides 206, 208 may be angled, for example,approximately 5° to 12°, and more preferably approximately 10°, as theyextend away from the first end 202. The first side 206 may be, forexample, shorter than the second side 208. The second member 200includes an anterior recess 214 extending into the first end 202. Theanterior recess 214 may be, for example, positioned near a midpoint of alateral axis of the second member 200 or, alternatively may be mediallybiased. The second member 200 also includes a posterior recess 216extending into the second end 204. The posterior recess 216 may be, forexample, positioned near a midpoint of the lateral axis of the secondmember 200 or, alternatively may be medially biased.

As shown in FIGS. 9 and 11-15, the top surface 210 of the second member200 includes a medial articulating surface 218 extending from the firstside 206 of the second member 200 toward the second side 208. The topsurface 210 may also include a lateral articulating surface 220extending from the second side 208 of the second member 200 toward thefirst side 206. In addition, the top surface 210 also includes a centralarticulating portion 222 positioned at a point where the medialarticulating surface 218 contacts the lateral articulating surface 220.The medial articulating surface 218 may include at least one firstcurvature along a longitudinal axis and at least one second curvatureperpendicular to the longitudinal axis, as shown in FIG. 14. The lateralarticulating surface 220 has at least one third curvature along thelongitudinal axis and at least one fourth curvature perpendicular to thelongitudinal axis. In addition, the central articulating portion 222 mayhave a concave curvature on the top surface 210 of the second member 200and the medial and lateral articulating surfaces 218, 220 may haveconvex curvatures on the top surface 210 of the second member 200. Thearticulating surface 210 of the second member 200 may include, forexample, a coronal radii and the coronal radii may have, for example, arange of approximately 12 mm to 26 mm for a size 1 second member 200, arange of approximately 14 mm to 30 mm for a size 3 second member 200,and a range of approximately 17 mm to 34 mm for a size 5 second member200. The articulating surface 210 of the second member 200 may include,for example, a sagittal radii and the sagittal radii may have, forexample, a range of approximately 18 mm to 25 mm for a size 1 secondmember 200, a range of approximately 20 mm to 28 mm for a size 3 secondmember 200, and a range of approximately 21 mm to 30 mm for a size 5second member 200.

Referring now to FIGS. 2, 4-6, 10, 13, 14, and 16, the bottom surface212 of the second member 200 may include a first portion 224, a secondportion 226, and a third portion 228. The first portion 224, the secondportion 226, and the third portion 228 may each have, for example,planar surfaces. The second portion 226 may be positioned between thefirst portion 224 and the third portion 228. The first portion 224 mayextend, for example, from the first end 202 to a first transition point230. The second portion 226 may extend, for example, from the firsttransition point 230 to a second transition point 232. The third portion228 may extend, for example, from the second transition point 232 to thesecond end 204. The first portion 224 may extend away from the secondportion 226 at a first angle and the third portion 228 may extend awayfrom the second portion 226 at a second angle. The first angle may be,for example, approximately 25° to 35°, and the second angle may be, forexample, approximately 25° to 35°. The bottom surface 212 of the secondmember 200 may be, for example, coated or textured with a biocompatiblematerial. The texture or coating may be, for example, a plasma sprayedmaterial, such as, a commercially-pure titanium or other biocompatiblematerial, as known by one of ordinary skill in the art.

The bottom surface 212 of the second member 200 may also include atleast one stem or peg 234 extending away from the first portion 224 ofthe bottom surface 212, as shown in FIGS. 1, 2, 4-14 and 16. The atleast one stem 234 may be, for example, two stems 234, although othernumbers of stems 234 are also contemplated. As depicted, the first stem234 is positioned on the first portion 224 between the anterior recess214 and the first side 206 and the second stem 234 is positioned on thefirst portion 224 between the anterior recess 214 and the second side208, as shown in FIGS. 10 and 16. The stems 234 may be, for example,positioned slightly medially biased and may be offset, for example,approximately 1 mm from a midpoint of the second member 200. The atleast one stem 234 may not be, for example, textured or coated, ratherthe at least one stem 234 may be smooth to decrease bone resorption atthe resection level. The at least one stem 234 may have, for example, acylindrical, pyramidal, or another quadrilateral prism shape.

Referring to FIGS. 1-16, the insert, polyethylene insert or articulatinginsert 150 is shown. The insert 150 includes a first end or anterior end152 opposite a second end or posterior end 154. The insert 150 alsoincludes a first side or medial side 156 opposite a second side orlateral side 158. In addition, the insert 150 includes a top surface 160opposite a bottom surface 162. The first end 152 of the insert 150includes an opening or cylinder 164 extending into the insert 150 fromthe first end 152 toward the second end 154. The opening 164 may besized and shaped or configured to receive an instrument, for example, aself-tapping screw to engage the insert 150 and remove the insert 150from the first member 110.

With continued reference to FIGS. 9 and 11-15, the top surface 160 ofthe insert 150 includes an engagement member or protrusion 166. Theengagement member 166 includes a first engagement feature or first maledovetail 168 on the first side 156, a second engagement feature orsecond male dovetail 170 on the second side 158, and a third engagementfeature or third male dovetail 172 on the second end 154. When theinsert 150 is coupled to the first member 110, the first engagementfeature 168 of the insert 150 may be configured or sized and shaped toengage the first engagement feature 132 of the first member 110, thesecond engagement feature 170 of the insert 150 may be configured orsized and shaped to engage the second engagement feature 134 of thefirst member 110, and the third engagement feature 172 of the insert 150may be configured or sized and shaped to engage the third engagementfeature 136 of the first member 110. The top surface 160 also mayinclude a slot or removal engagement feature 174 and a locking tab orprotrusion 176. The slot 174 may be, for example, positioned near andopen to the first end 152. The locking tab 176 may be, for example,positioned adjacent to the slot 174 and extend away from the top surface160 of the insert 150. The locking tab 176 may be configured or sizedand shaped to engage the locking groove 140 of the bottom surface 122 ofthe first member 110.

Referring now to FIGS. 10-14 and 16, the bottom surface 162 of theinsert 150 includes a first contact surface or medial contact surface178, a second contact surface or lateral contact surface 180, and acentral contact surface 182. The first contact surface 178 extends fromthe first side 156 of the insert 150 toward the second side 158. Thesecond contact surface 180 extends from the second side 158 of theinsert 150 toward the first side 156. The central contact surface orcentral sulcus 182 is positioned between the first contact surface 178and the second contact surface 180. The first and second contactsurfaces 178, 180 form a bi-condylar surface, as shown in FIGS. 7, 8,and 10-12. The centers of the radii of the bi-condylar surface may be,for example, spaced between approximately 18 mm and 26 mm for all sizesof the insert 150. More specifically, the centers of radii of thebi-condylar surface may be, for example, approximately 20 mm for a size1 insert 150, approximately 22 mm for a size 3 insert 150, andapproximately 24 mm for a size 5 insert 150. The first contact surface178 includes at least one first curvature along a longitudinal axis andat least one second curvature along a lateral axis. The second contactsurface 180 includes at least one third curvature along a longitudinalaxis and at least one fourth curvature along a lateral axis. The centralcontact surface 182 includes at least one curvature. The curvatures ofthe first and second contact surfaces 178, 180 may be, for example,concave curvatures and the at least one curvature of the central contactsurface 182 may be, for example, a convex curvature. The central contactsurface 182 may provide, for example, stability in a medial-lateraldirection. The central contact surface 182 may have, for example, aheight ranging from approximately 1.5 mm and 2 mm. The insert 150 mayalso have a coronal radii and the coronal radii may be, for example,approximately 1.10× the coronal radii of the talus. In addition, theinsert 150 may have at least one sagittal radii. The at least onesagittal radii of the insert 150 may be, for example, multiple tangentand/or continuous radii, which may include varying levels of conformitywith the sagittal radii of the second member 200. The sagittal radii mayhave, for example, a range of approximately 25 mm to 34 mm for all sizesof the insert 150. More specifically, the sagittal radii may be, forexample, approximately 25 mm to 26 mm for the size 1 insert 150 andapproximately 33 mm to 34 mm for the size 5 insert 150. In an embodimentthe sagittal radii may be, for example, 37.6 mm for size 1 and 32.4 forsize 5.

As shown in FIGS. 1-8, when assembled and/or implanted, the top surface160 of the insert 150 couples to a bottom surface 122 of the firstmember 110. In addition, the top surface 210 of the second member 200 isconfigured or sized and shaped to articulate with the bottom surface 162of the insert 150. Specifically, the medial articulating surface 218 ofthe second member 200 is configured to articulate with the first contactsurface 178 of the insert 150, the lateral articulating surface 220 ofthe second member 200 is configured to articulate with the secondcontact surface 180 of the insert 150, and the central portion 222 ofthe second member 200 is configured to articulate with the third contactsurface 182 of the insert 150.

A method of inserting an implant 100 is shown in FIG. 17. The method mayinclude, for example, obtaining an implant 250 and making an incision toexpose a joint with a first bone and a second bone 252. The implant maybe, for example, an implant 100 as described in greater detail abovewith reference to FIGS. 1-16 and which will not be described again herefor brevity sake. The method may also include preparing the bones forreceiving the implant 254. Next, the method may include coupling thefirst member to the first bone 256 and coupling the second member to thesecond bone 258. Then, the method may include inserting a second end ofthe insert into a first end of the first member 260. In addition, themethod may include engaging a locking tab of the insert with a lockinggroove of the first member 262. In an embodiment, if the insert needs tobe removed or replaced, for example, for a different size or due to wearor failure, an instrument may be inserted into the slot of the insert torelease the locking tab of the insert from the locking groove of thefirst member 264. If the insert is removed, a second end of anotherinsert may be inserted into a first end of the first member 260 and alocking tab of the new insert may be engaged with the locking groove ofthe first member 262. Finally, once the desired insert is installed, themethod may include closing the incision 266.

Referring now to FIGS. 18-35, another implant 300 is shown. The implant300 includes a first member or tibia base 310, an insert 350, and asecond member, talus component, or articulating member 400. The insert350 includes a top surface 360 and a bottom surface 362. The top surface360 of the insert 350 couples to the first member 310 and the bottomsurface 362 engages the second member 400.

As shown in FIGS. 26-35, the first member 310 includes a first end oranterior end 312 opposite a second end or posterior end 314. The firstmember 310 also includes a first side or medial side 316 opposite asecond side or lateral side 318. In addition, the first member 310includes a top surface 320 opposite a bottom surface 322. The topsurface 320 may include, for example, an arc shape or curvatureextending between the first side 316 and the second side 318, as shownin FIGS. 24, 25, 28 and 29. The curvature may have, for example,multiple arc radii, such as, a first arc radius R1, a second arc radiusR2, and a third arc radius R3, as shown in FIG. 34. The first arc radiusR1 may be, for example, positioned near a middle portion of the topsurface 320 of the first member 310. The second arc radii R2 may be, forexample, positioned adjacent to the first arc radius R1 on both sides,such that a second arc radius R2 may be positioned adjacent to the firstarc radius R1 on the first side 316 and a second arc radius R2 may bepositioned adjacent to the first arc radius R1 on the second side 318.Finally, the third arc radii R3 may be, for example, positioned adjacentto one of the second arc radii R2 on each side of the first member 310,such that a third arc radius R3 is positioned between one of the secondarc radii R2 and the first side 316 and a third arc radius R3 ispositioned between the other second arc radius R2 and the second side318. In one embodiment, the first arc radius R1 may be, for example,approximately 45 mm to 55 mm and more specifically, approximately 50 mm.The second arc radius R2 may be, for example, approximately 140 mm to160 mm and more specifically approximately 150 mm. The third arc radiusR3 may be, for example, approximately 190 mm to 210 mm and morespecifically 200 mm. Although not shown, it is also contemplated thatthe top surface 320 of the first member 310 may be, for example, flat asthe top surface 320 extends between the first side 316 and the secondside 318. The top surface 320 of the first member 310 may also include,for example, sloped, tapered, or angled sides on the first side 316 andthe second side 318 of the first member 310. The angle of the first andsecond sides 316, 318 as they extend away from the top surface 320 maybe, for example, approximately 8° to 15° from vertical and morespecifically approximately 10° from vertical. The edges of the first andsecond sides 316, 318 of the first member 310 may be, for example,rounded or curved.

As shown in the top view of FIG. 35, the first and second ends 312, 314may include, for example, multiple arc radii as the first and secondends 312, 314 extends between the first side 316 and the second side318. The first end 312 may include multiple arc radii, for example, afourth arc radius R4, a fifth arc radius R5, a sixth arc radius R6, aseventh arc radius R7, an eighth arc radius R8, and a ninth arc radiusR9. The apex of the first end 312 may be, for example, offset mediallyfrom a longitudinal axis of the first member 310. The fourth arc radiusR4 may be positioned to the right of the flat or planar surface of thefirst end 312 and the fifth arc radius R5 may be positioned to the leftof the flat or planar surface of the first end 312. The fourth and fiftharc radii R4, R5 may be, for example, approximately 3 mm to 5 mm, andmore preferably approximately 4 mm. The sixth arc radius R6 may bepositioned adjacent to the fourth arc radius R4 toward the first side316 of the first member 310. The seventh arc radius R7 may be positionedadjacent to the fifth arc radius R5 toward the second side 318 of thefirst member 310. The fifth and sixth arc radii R5, R6 may be, forexample, approximately 60 mm to 75 mm, and more preferably approximately67 mm. The eighth arc radius R8 may be positioned adjacent to the sixtharc radius R6 and the eighth arc radius R8 extends to the first side 316of the first member 310. The ninth arc radius R9 may be positionedadjacent to the seventh arc radius R7 and the ninth arc radius R9extends to the second side 318 of the first member 310. The eighth andninth arc radii R8, R9 may be, for example, approximately 1 mm to 3 mm,and more preferably approximately 2 mm.

The second end 314 may also include multiple arc radii, for example, atenth arc radius R10, an eleventh arc radius R11, and a twelfth arcradius R12. The apex of the second end 314 may be, for example, offsetlaterally from a longitudinal axis of the first member 310. The tentharc radius R10 may be positioned in the central portion of the secondend 314 of the first member 310. The tenth arc radius R10 may be, forexample, approximately 30 mm to 45 mm, and more preferably approximately37 mm. The eleventh arc radius R11 may be positioned adjacent to thetenth arc radius R10 and the eleventh arc radius R11 extends to thefirst side 316 of the first member 310. The twelfth arc radius R12 maybe positioned adjacent to the tenth arc radius R10 and the twelfth arcradius R12 extends to the second side 318 of the first member 310. Theeleventh and twelfth arc radii R11, R12 may be, for example,approximately 1 mm to 3 mm, and more preferably approximately 2 mm.

The first member 310 may have an outer perimeter shape that may be, forexample, a quadrilateral shape, such as, a generally trapezoidal from atop or bottom view, as shown in FIGS. 20, 32 and 33. The first andsecond sides 316, 318 may be generally parallel and the first end 312and second end 314 may be, for example, angled or curved as they extendfrom the first side 316 to the second side 318. In an embodiment, thelength of the first or medial side 316 may be, for example, shorter thanthe length of the second or lateral side 318. The angle or curvature ofthe first end 312 may be, for example, smaller than the angle of thesecond end 314. The top surface 320, first side 316 and second side 318may be, for example, textured or coated to provide afriction-stabilization surface and to allow for bone on-growth. Thetextured surface may be, for example, plasma sprayed biocompatiblematerial, such as, commercially-pure titanium, or another biocompatiblematerial as known by one of ordinary skill in the art.

With continued reference to FIGS. 26-33, the top surface 320 of thefirst member 310 includes at least one peg or vertical peg 324 extendingaway from the top surface 320. The at least one peg 324 may be, forexample, four pegs 324, although alternative numbers of pegs 324 arealso contemplated. The pegs 324 may be, for example, positioned equallyspaced around the top surface 320 forming, for example, the four pointsor corners of a quadrilateral, such as a square, rectangle, or diamondshape or alternatively, the four pegs 324 may be randomly positioned onthe top surface 320. The at least one peg 324 may not be, for example,textured, rather the at least one peg 324 may be smooth to decrease boneresorption at the resection level.

Referring now to FIGS. 27 and 33, the bottom surface 322 of the firstmember 310 is shown. The bottom surface 322 includes a recessed regionor engagement region 328 extending into the first member 310 from thebottom surface 322 toward the top surface 320. The first member 310 maycome in multiple sizes for use with patients having different size tibiabones and the recessed region 328 of each of the first members 310 willbe, for example, sized and shaped the same to allow for replacement ofthe first member 310, as needed. The bottom surface 322 also includes anengagement channel 330 extending from the first end 312 into therecessed region 328. In addition, the bottom surface 322 of the firstmember 310 includes a first engagement feature or first female dovetailportion 332 extending from the first side 316 into the recessed region328, a second engagement feature or second female dovetail portion 334extending from the second side 318 into the recessed region 328, and athird engagement feature or third female dovetail portion 336 extendingfrom a position near the second end 314 into the recessed region 328.The bottom surface 322 of the first member 310 also includes a slot orremoval engagement feature 338 and a locking groove 340 positionedadjacent to the slot 338. The slot 338 may be, for example, angled asthe slot 338 extends from the first end 312 toward the locking groove340.

Referring now to FIGS. 18-33, the second member, talus component orarticulating member 400 has a first end or anterior end 402 opposite asecond end or posterior end 404. The second member 400 also has a firstside or medial side 406 opposite a second side or lateral side 408. Inaddition, the second member 400 has a top surface or articulatingsurface 410 opposite a bottom surface or bone engagement surface 412.The second member 400 may have, for example, a trapezium shape, as shownin FIGS. 32 and 33. The first side 406 and second side 408 may be angledas they extend from the top surface 410 to the bottom surface 412 andthe angle may be, for example, approximately 15° to 20° and morepreferably approximately 10°. The first side 406 may be, for example,shorter than the second side 408. As shown in FIGS. 22, 23, and 25, atleast a portion of the first and second sides 406, 408 may be, forexample, angled or tapered from the top surface 410 toward the bottomsurface 412. The second member 400 includes an anterior recess 414extending into the first end 402. The anterior recess 414 may be, forexample, positioned near a midpoint of a lateral axis of the secondmember 400 or, alternatively may be medially biased. The second member400 also includes a posterior recess 416 extending into the second end404. The posterior recess 416 may be, for example, positioned near amidpoint of the lateral axis of the second member 400 or, alternativelymay be medially biased.

As shown in FIGS. 26 and 28-32, the top surface 410 of the second member400 includes a medial articulating surface 418 extending from the firstside 406 of the second member 400 toward the second side 408. The topsurface 410 may also include a lateral articulating surface 420extending from the second side 408 of the second member 400 toward thefirst side 406. In addition, the top surface 410 also includes a centralarticulating portion 422 positioned at a point where the medialarticulating surface 418 contacts the lateral articulating surface 420.

The medial articulating surface 418 may include at least one firstcurvature along a longitudinal axis and at least one second curvatureperpendicular to the longitudinal axis, as shown in FIG. 31. The lateralarticulating surface 420 has at least one third curvature along thelongitudinal axis and at least one fourth curvature perpendicular to thelongitudinal axis. In addition, the central articulating portion 422 mayhave a concave curvature on the top surface 410 of the second member 400and the medial and lateral articulating surfaces 418, 420 may haveconvex curvatures on the top surface 410 of the second member 400. Thearticulating surface 410 of the second member 400 may include, forexample, at least one coronal radii and the at least one coronal radiimay have, for example, a range of approximately 12 mm to 26 mm for asize 1 second member 400, a range of approximately 14 mm to 30 mm for asize 3 second member 200, and a range of approximately 17 mm to 34 mmfor a size 5 second member 200. The articulating surface 410 of thesecond member 400 may include, for example, at least one sagittal radiiand the at least one sagittal radii may have, for example, a range ofapproximately 18 mm to 25 mm for a size 1 second member 400, a range ofapproximately 20 mm to 28 mm for a size 3 second member 200, and a rangeof approximately 21 mm to 30 mm for a size 5 second member 200. In anembodiment, the anterior portion of the second member 400 may include afirst sagittal radius of the lateral articulating surface 420 and asecond sagittal radius of the medial articulating surface 418. The firstsagittal radius may be, for example, larger than the second sagittalradius. In addition, the posterior portion of the second member 400 mayinclude a third sagittal radius of the lateral articulating surface 420and a fourth sagittal radius of the medial articulating surface 418. Thethird sagittal radius may be, for example, smaller than the fourthsagittal radius. A larger anterior lateral sagittal radius than anteriormedial sagittal radius and a smaller posterior lateral sagittal radiusthan posterior medial sagittal radius allow for the joint axis ofrotation to point distally and laterally during dorsiflexion anddistally and medially during plantarflexion.

Referring now to FIGS. 19, 21-23, 27, 30, 31, and 33, the bottom surface412 of the second member 400 may include a first portion 424, a secondportion 426, and a third portion 428. The first portion 424, the secondportion 426, and the third portion 428 may each have, for example,planar surfaces. The second portion 426 may be positioned between thefirst portion 424 and the third portion 428. The first portion 424 mayextend, for example, from the first end 402 to a first transition point430. The second portion 426 may extend, for example, from the firsttransition point 430 to a second transition point 432. The third portion428 may extend, for example, from the second transition point 432 to thesecond end 404. The first portion 424 may extend away from the secondportion 426 at a first angle and the third portion 428 may extend awayfrom the second portion 426 at a second angle. The first angle may be,for example, approximately 25° to 35°, and the second angle may be, forexample, approximately 25° to 35°. The bottom surface 412 of the secondmember 400 may be, for example, coated or textured with a biocompatiblematerial. The texture or coating may be, for example, a plasma sprayedmaterial, such as, a commercially-pure titanium or other biocompatiblematerial, as known by one of ordinary skill in the art.

The bottom surface 412 of the second member 400 may also include atleast one stem or peg 434 extending away from the first portion 424 ofthe bottom surface 412, as shown in FIGS. 18, 19, 21-31 and 33. The atleast one stem 434 may be, for example, two stems 434, although othernumbers of stems 434 are also contemplated. As depicted, the first stem434 is positioned on the first portion 424 between the anterior recess414 and the first side 406 and the second stem 434 is positioned on thefirst portion 424 between the anterior recess 414 and the second side408, as shown in FIGS. 27 and 33. The stems 434 may be, for example,positioned slightly medially biased and may be offset, for example,approximately 1 mm from a midpoint of the second member 400. The atleast one stem 434 may not be, for example, textured or coated, ratherthe at least one stem 434 may be smooth to decrease bone resorption atthe resection level. The at least one stem 434 may have, for example, acylindrical, pyramidal, or other quadrilateral prism shape.

Referring to FIGS. 18-33, the insert, bearing insert, polyethyleneinsert, or articulating insert 350 is shown. The insert 350 includes afirst end or anterior end 352 opposite a second end or posterior end354. The insert 350 also includes a first side or medial side 356opposite a second side or lateral side 358. In addition, the insert 350includes a top surface 360 opposite a bottom surface 362. The first end352 of the insert 350 includes an opening or cylinder 364 extending intothe insert 350 from the first end 352 toward the second end 354. Theopening 364 may be sized and shaped or configured to receive aninstrument or member, for example, a self-tapping screw to engage theinsert 350 and remove the insert 350 from the first member 310. Thefirst and second sides 356, 358 may be, for example, angled or taperedalong at least a portion of the sides 356, 358 as the sides 356, 358extend from the top surface 360 toward the bottom surface 362, as shownin FIGS. 24, 25, 28 and 29.

With continued reference to FIGS. 26 and 28-32, the top surface 360 ofthe insert 350 includes an engagement member or protrusion 366. Theengagement member 366 includes a first engagement feature or first maledovetail 368 near the first side 356, a second engagement feature orsecond male dovetail 370 near the second side 358, and a thirdengagement feature or third male dovetail 372 near the second end 354.When the insert 350 is coupled to the first member 310, the firstengagement feature 368 of the insert 350 may be configured or sized andshaped to engage the first engagement feature 332 of the first member310, the second engagement feature 370 of the insert 350 may beconfigured or sized and shaped to engage the second engagement feature334 of the first member 310, and the third engagement feature 372 of theinsert 350 may be configured or sized and shaped to engage the thirdengagement feature 336 of the first member 310. The top surface 360 alsoincludes a locking tab or protrusion 376. The locking tab 376 may, forexample, extend away from the top surface 360 of the insert 350. Thelocking tab 376 may form, for example, a ramped portion extending fromthe top surface 360 of the insert 350 on the side positioned toward thesecond end 354 to a side positioned toward the first end 352. The sideof the locking tab 376 positioned toward the first end 352 may have aheight taller than the height of the side of the locking tab 376positioned toward the second end 354. The locking tab 376 may beconfigured or sized and shaped to engage the locking groove 340 of thebottom surface 322 of the first member 310.

Referring now to FIGS. 27-31 and 33, the bottom surface 362 of theinsert 350 includes a first contact surface or medial contact surface378, a second contact surface or lateral contact surface 380, and acentral contact surface 382. The first contact surface 378 extends alongat least a portion of the bottom surface 362 in a medial-lateraldirection from the first side 356 toward the second side 358. The firstcontact surface 378 also extends along at least a portion of the bottomsurface 362 in an anterior-posterior direction from a position near thefirst end 352 toward a position near the second end 354. The secondcontact surface 380 extends along at least a portion of the bottomsurface 362 from the second side 358 toward the first side 356. Thesecond contact surface 380 also extends along at least a portion of thebottom surface 362 in an anterior-posterior direction from a positionnear the first end 352 toward a position near the second end 354. Thecentral contact surface or central sulcus 382 is positioned between thefirst contact surface 378 and the second contact surface 380. Thecentral contact surface 382 also extends along at least a portion of thebottom surface 362 in an anterior-posterior direction from a positionnear the first end 352 toward a position near the second end 354. Thefirst and second contact surfaces 378, 380 form a bi-condylar surface,as shown in FIGS. 24, 25, and 27-29. The centers of the radii of thebi-condylar surface may be, for example, spaced between approximately 18mm and 26 mm for all sizes of the insert 350. More specifically, thecenters of radii of the bi-condylar surface may be, for example,approximately 20 mm for a size 1 insert 350, approximately 22 mm for asize 3 insert 350, and approximately 24 mm for a size 5 insert 350.

With continued reference to FIGS. 27-31 and 33, the first contactsurface 378 includes at least one first curvature along a longitudinalaxis and at least one second curvature along a lateral axis. The secondcontact surface 380 includes at least one third curvature along alongitudinal axis and at least one fourth curvature along a lateralaxis. The central contact surface 382 includes at least one curvature.The curvatures of the first and second contact surfaces 378, 380 may be,for example, concave curvatures and the at least one curvature of thecentral contact surface 382 may be, for example, a convex curvature. Thecentral contact surface 382 may provide, for example, stability in amedial-lateral direction. The central contact surface 382 may have, forexample, a height ranging from approximately 1.5 mm and 2 mm. The insert350 may also have a coronal radii and the coronal radii may be, forexample, approximately 1.10 times the coronal radii of the talus. Inaddition, the insert 350 may have at least one sagittal radii. The atleast one sagittal radii of the insert 350 may be, for example, multipletangent and/or continuous radii, which may include varying levels ofconformity with the sagittal radii of the second member 400. Thesagittal radii may have, for example, a range of approximately 25 mm to34 mm for all sizes of the insert 350. More specifically, the sagittalradii may be, for example, approximately 25 mm to 26 mm for the size 1insert 350 and approximately 33 mm to 34 mm for the size 5 insert 350.

Referring now to FIGS. 19, 21-25, 27-31 and 33, the bottom surface 362may also include, for example, a first angled or tapered portion 384 anda second angled or tapered portion 386. The first angled portion 384 maybe, for example, positioned to extend from the first end 352 to theanterior portion of the contact surfaces 378, 380, 382 of the bottomsurface 362 of the insert 350. The second angled portion 386 may be, forexample, positioned to extend from the second end 354 to the posteriorportion of the contact surfaces 378, 380, 382 of the bottom surface 362of the insert 350.

As shown in FIGS. 18-25, when assembled and/or implanted, the topsurface 360 of the insert 350 couples to a bottom surface 322 of thefirst member 310. In addition, the top surface 410 of the second member400 is configured or sized and shaped to articulate with the bottomsurface 362 of the insert 350. Specifically, the medial articulatingsurface 418 of the second member 400 is configured to articulate withthe first contact surface 378 of the insert 350, the lateralarticulating surface 420 of the second member 400 is configured toarticulate with the second contact surface 380 of the insert 350, andthe central portion 422 of the second member 400 is configured toarticulate with the third contact surface 382 of the insert 350.

Referring now to FIGS. 36-51, another implant 500 is shown. The implant500 includes a first member or tibia base 510, an insert 550, and asecond member, talus component, or articulating member 600. The insert550 includes a top surface 560 and a bottom surface 562. The top surface560 of the insert 550 couples to the first member 510 and the bottomsurface 562 engages the second member 600.

As shown in FIGS. 44-51, the first member 510 includes a first end oranterior end 512 opposite a second end or posterior end 514. The firstmember 510 also includes a first side or medial side 516 opposite asecond side or lateral side 518. In addition, the first member 510includes a top surface 520 opposite a bottom surface 522. The topsurface 520 may include, for example, an arc shape or curvatureextending between the first side 516 and the second side 518, as shownin FIGS. 42, 43, 46 and 47. The curvature may have, for example,multiple arc radii, which in an embodiment may be the same or similar tothe arc radii described with reference to FIG. 34 in greater detailabove and in other embodiments the multiple arc radii may be differentthan described above with reference to FIG. 34. The top surface 520 ofthe first member 510 may also include, for example, sloped, tapered, orangled sides on the first side 516 and the second side 518 of the firstmember 510. The angle of the first and second sides 516, 518 as theyextend away from the top surface 520 may be, for example, approximately8° to 15° from vertical and more specifically approximately 10° fromvertical. The edges of the first and second sides 516, 518 of the firstmember 510 may be, for example, rounded or curved.

As shown in the top view of FIG. 50, the first and second ends 512, 514may include, for example, multiple arc radii as the first and secondends 512, 514 extend between the first side 516 and the second side 518.In an embodiment, the multiple arc radii of the first member 510 may beas described in greater detail above with reference to FIG. 35, whichwill not be described again here for brevity sake. In other embodimentsthe multiple arc radii may be different as described with respect toFIG. 35.

The first member 510 may have an outer perimeter shape that may be, forexample, a quadrilateral shape, such as, a generally trapezoidal from atop or bottom view, as shown in FIGS. 38, 51 and 52. The first andsecond sides 516, 518 may be generally parallel and the first end 512and second end 514 may be, for example, angled or curved as they extendfrom the first side 516 to the second side 518. In an embodiment, thelength of the first or medial side 516 may be, for example, shorter thanthe length of the second or lateral side 518. The angle or curvature ofthe first end 512 may be, for example, smaller than the angle of thesecond end 514. The top surface 520, first side 516 and second side 518may be, for example, textured or coated to provide afriction-stabilization surface and to allow for bone on-growth. Thetextured surface may be, for example, plasma sprayed biocompatiblematerial, such as, commercially-pure titanium, or another biocompatiblematerial as known by one of ordinary skill in the art.

With continued reference to FIGS. 44-51, the top surface 520 of thefirst member 510 includes at least one peg or vertical peg 524 extendingaway from the top surface 520. The at least one peg 524 may be, forexample, two pegs 524, although alternative numbers of pegs 524 are alsocontemplated. The pegs 524 may be, for example, positioned equallyspaced apart on the top surface 520 or alternatively, the two pegs 524may be randomly positioned on the top surface 520. The at least one peg524 may not be, for example, textured, rather the at least one peg 524may be smooth to decrease bone resorption at the resection level.

Referring now to FIGS. 45 and 51, the bottom surface 522 of the firstmember 510 is shown. The bottom surface 522 includes a recessed regionor engagement region 528 extending into the first member 510 from thebottom surface 522 toward the top surface 520. The first member 510 maycome in multiple sizes for use with patients having different size tibiabones and the recessed region 528 of each of the first members 510 willbe, for example, sized and shaped the same to allow for replacement ofthe first member 510, as needed. The bottom surface 522 also includes anengagement channel 530 extending from the first end 512 into therecessed region 528. In addition, the bottom surface 522 of the firstmember 510 includes a first engagement feature or first female dovetailportion 532 extending from the first side 516 into the recessed region528, a second engagement feature or second female dovetail portion 534extending from the second side 518 into the recessed region 528, and athird engagement feature or third female dovetail portion 536 extendingfrom a position near the second end 514 into the recessed region 528.The bottom surface 522 of the first member 510 also includes a slot orremoval engagement feature 538 and a locking groove 540 positionedadjacent to the slot 538. The slot 538 may be, for example, angled asthe slot 538 extends from the first end 512 toward the locking groove540. As shown in FIG. 51, the engagement channel 530 may have a firstwidth at the opening at the first end 512 and a second width at theclosed end near the second end 514. The first width may be, for example,wider than the second width. At least a portion of the first engagementfeature 532 and at least a portion of the second engagement feature 534may be, for example, tapered or curved between the first width at theopening of the first end 512 and the second width. The second width mayextend from a position adjacent to the locking groove 540 to the closedend of the engagement channel 530.

Referring now to FIGS. 123-124, another embodiment of the first member510 is shown. The first member 510 of FIGS. 123-124 is the same orsimilar to the first member 510 shown in FIGS. 36-51 with the additionof an opening 542. The opening 542 may be, for example, positioned onthe first end 512 of the first member 510. The opening 542 may extendfrom the first end 512 into the implant 510 toward the second end 514.The opening 542 may have, for example, an oval, rectangular, or likeshape where the height of the opening 542 is smaller than the length.The height may, for example, extend between the top surface 520 and thebottom surface 522. The length may, for example, extend between thefirst side 516 and the second side 518. The opening 542 may include, forexample, a first recess or groove 544 and a second recess or groove 546.The first recess 544 may be, for example, inset into a top surface ofthe opening 542. The first recess 544 may extend, for example, from theinterior of the opening 542 toward the top surface 520 of the firstmember 510. The first recess 544 may be positioned, for example, on thetop surface of the opening 542. The second recess 546 may be, forexample, inset into a bottom surface of the opening 542. The secondrecess 546 may extend, for example, from the interior of the opening 542toward the bottom surface 522 of the first member 510. The second recess546 may be positioned, for example, on the bottom surface and a portionof each side surface of the opening 542, as shown in FIG. 124. In anembodiment, the second recess 546 may, for example, extend around alarger portion of the interior surface of the opening 542 than the firstrecess 544. At least one of the opening 542, first recess 544, and thesecond recess 546 may be configured to engage an insertion tool to, forexample, assist with inserting the first member 510 into a patient orassist with positioning the first member 510 during insertion of othercomponents of the implant 500.

Referring now to FIGS. 36-51, the second member, talus component orarticulating member 600 has a first end or anterior end 602 opposite asecond end or posterior end 604. The second member 600 also has a firstside or medial side 606 opposite a second side or lateral side 608. Inaddition, the second member 600 has a top surface or articulatingsurface 610 opposite a bottom surface or bone engagement surface 612.The second member 600 may have, for example, a trapezium shape, as shownin FIGS. 50 and 51. The first side 606 and second side 608 may be angledas they extend from the top surface 610 to the bottom surface 612 andthe angle may be, for example, approximately 15° to 20° and morepreferably approximately 10°. The first side 606 may be, for example,shorter than the second side 608. As shown in FIGS. 40, 41, and 43, atleast a portion of the first and second sides 606, 608 may be, forexample, angled or tapered from the top surface 610 toward the bottomsurface 612. The second member 600 includes an anterior recess 614extending into the first end 602. The anterior recess 614 may be, forexample, positioned near a midpoint of a lateral axis of the secondmember 600 or, alternatively may be medially biased. The second member600 also includes a posterior recess 616 extending into the second end604. The posterior recess 616 may be, for example, positioned near amidpoint of the lateral axis of the second member 600 or, alternativelymay be medially biased.

As shown in FIGS. 44 and 46-50, the top surface 610 of the second member600 includes a medial articulating surface 618 extending from the firstside 606 of the second member 600 toward the second side 608. The topsurface 610 may also include a lateral articulating surface 620extending from the second side 608 of the second member 600 toward thefirst side 606. In addition, the top surface 610 also includes a centralarticulating portion 622 positioned at a point where the medialarticulating surface 618 contacts the lateral articulating surface 620.

The medial articulating surface 618 may include at least one firstcurvature along a longitudinal axis and at least one second curvatureperpendicular to the longitudinal axis, as shown in FIG. 49. The lateralarticulating surface 620 has at least one third curvature along thelongitudinal axis and at least one fourth curvature perpendicular to thelongitudinal axis. In addition, the central articulating portion 622 mayhave a concave curvature on the top surface 610 of the second member 600and the medial and lateral articulating surfaces 618, 620 may haveconvex curvatures on the top surface 610 of the second member 600. Thearticulating surface 610 of the second member 600 may include, forexample, at least one coronal radii and the at least one coronal radiimay have, for example, a range of approximately 12 mm to 26 mm for asize 1 second member 600, a range of approximately 14 mm to 30 mm for asize 3 second member 600, and a range of approximately 17 mm to 34 mmfor a size 5 second member 600. The articulating surface 610 of thesecond member 600 may include, for example, at least one sagittal radiiand the at least one sagittal radii may have, for example, a range ofapproximately 18 mm to 25 mm for a size 1 second member 600, a range ofapproximately 20 mm to 28 mm for a size 3 second member 600, and a rangeof approximately 21 mm to 30 mm for a size 5 second member 600. In anembodiment, the anterior portion of the second member 600 may include afirst sagittal radius of the lateral articulating surface 620 and asecond sagittal radius of the medial articulating surface 618. The firstsagittal radius may be, for example, larger than the second sagittalradius. In addition, the posterior portion of the second member 600 mayinclude a third sagittal radius of the lateral articulating surface 620and a fourth sagittal radius of the medial articulating surface 618. Thethird sagittal radius may be, for example, smaller than the fourthsagittal radius. A larger anterior lateral sagittal radius than anteriormedial sagittal radius and a smaller posterior lateral sagittal radiusthan posterior medial sagittal radius allow for the joint axis ofrotation to point distally and laterally during dorsiflexion anddistally and medially during plantarflexion.

Referring now to FIGS. 37, 39-41, 45, 48, 49, and 51, the bottom surface612 of the second member 600 may include a first portion 624, a secondportion 626, and a third portion 628. The first portion 624, the secondportion 626, and the third portion 628 may each have, for example,planar surfaces. The second portion 626 may be positioned between thefirst portion 624 and the third portion 628. The first portion 624 mayextend, for example, from the first end 602 to a first transition point630. The second portion 626 may extend, for example, from the firsttransition point 630 to a second transition point 632. The third portion628 may extend, for example, from the second transition point 632 to thesecond end 604. The first portion 624 may extend away from the secondportion 626 at a first angle and the third portion 628 may extend awayfrom the second portion 626 at a second angle. The first angle may be,for example, approximately 25° to 35°, and the second angle may be, forexample, approximately 25° to 35°. The bottom surface 612 of the secondmember 600 may be, for example, coated or textured with a biocompatiblematerial. The texture or coating may be, for example, a plasma sprayedmaterial, such as, a commercially-pure titanium or other biocompatiblematerial, as known by one of ordinary skill in the art.

The bottom surface 612 of the second member 600 may also include atleast one fin or stem 634 extending away from the first portion 624 ofthe bottom surface 612, as shown in FIGS. 36, 37, 39-49 and 51. The atleast one fin 634 may be, for example, one fin 634, although othernumbers of fins 634 are also contemplated. As depicted, the first fin634 is positioned on the first portion 624 aligned with the anteriorrecess 614, as shown in FIGS. 45 and 51. The fin 634 may be, forexample, tapered at the distal end. The at least one fin 634 may not be,for example, textured or coated, rather the at least one fin 634 may besmooth to decrease bone resorption at the resection level. The at leastone fin 634 may have, for example, a cylindrical, round, oval or otherlike shape.

Referring to FIGS. 36-51, the insert, bearing insert, polyethyleneinsert, or articulating insert 550 is shown. The insert 550 includes afirst end or anterior end 552 opposite a second end or posterior end554. The insert 550 also includes a first side or medial side 556opposite a second side or lateral side 558. In addition, the insert 550includes a top surface 560 opposite a bottom surface 562. The first end552 of the insert 550 includes at least one opening or cylinder 564extending into the insert 550 from the first end 552 toward the secondend 554. The at least one opening 564 may be sized and shaped orconfigured to receive an instrument or member, for example, a fasteneror instrument to engage the insert 550 and remove the insert 550 fromthe first member 510. The first and second sides 556, 558 may be, forexample, angled or tapered along at least a portion of the sides 556,558 as the sides 556, 558 extend from the top surface 560 toward thebottom surface 562, as shown in FIGS. 42, 43, 46 and 47.

With continued reference to FIGS. 44 and 46-50, the top surface 560 ofthe insert 550 includes an engagement member or protrusion 566. Theengagement member 566 includes a first engagement feature or first maledovetail 568 near the first side 556, a second engagement feature orsecond male dovetail 570 near the second side 558, and a thirdengagement feature or third male dovetail 572 near the second end 554.When the insert 550 is coupled to the first member 510, the firstengagement feature 568 of the insert 550 may be configured or sized andshaped to engage the first engagement feature 532 of the first member510, the second engagement feature 570 of the insert 550 may beconfigured or sized and shaped to engage the second engagement feature534 of the first member 510, and the third engagement feature 572 of theinsert 550 may be configured or sized and shaped to engage the thirdengagement feature 536 of the first member 510. The top surface 560 alsoincludes a locking tab or protrusion 576. The locking tab 576 may, forexample, extend away from the top surface 560 of the insert 550. Thelocking tab 576 may form, for example, a ramped portion extending fromthe top surface 560 of the insert 550 on the side positioned toward thesecond end 554 to a side positioned toward the first end 552. The sideof the locking tab 576 positioned toward the first end 552 may have aheight taller than the height of the side of the locking tab 576positioned toward the second end 554. The locking tab 576 may beconfigured or sized and shaped to engage the locking groove 540 of thebottom surface 522 of the first member 510.

Referring now to FIGS. 45-49 and 51, the bottom surface 562 of theinsert 550 includes a first contact surface or medial contact surface578, a second contact surface or lateral contact surface 580, and acentral contact surface 582. The first contact surface 578 extends alongat least a portion of the bottom surface 562 in a medial-lateraldirection from the first side 556 toward the second side 558. The firstcontact surface 578 also extends along at least a portion of the bottomsurface 562 in an anterior-posterior direction from a position near thefirst end 552 toward a position near the second end 554. The secondcontact surface 580 extends along at least a portion of the bottomsurface 562 from the second side 558 toward the first side 556. Thesecond contact surface 580 also extends along at least a portion of thebottom surface 562 in an anterior-posterior direction from a positionnear the first end 552 toward a position near the second end 554. Thecentral contact surface or central sulcus 582 is positioned between thefirst contact surface 578 and the second contact surface 580. Thecentral contact surface 582 also extends along at least a portion of thebottom surface 562 in an anterior-posterior direction from a positionnear the first end 552 toward a position near the second end 554. Thefirst and second contact surfaces 578, 580 form a bi-condylar surface,as shown in FIGS. 42, 43, and 45-47. The centers of the radii of thebi-condylar surface may be, for example, spaced between approximately 18mm and 26 mm for all sizes of the insert 550. More specifically, thecenters of radii of the bi-condylar surface may be, for example,approximately 20 mm for a size 1 insert 550, approximately 22 mm for asize 3 insert 550, and approximately 24 mm for a size 5 insert 550.

With continued reference to FIGS. 45-49 and 51, the first contactsurface 578 includes at least one first curvature along a longitudinalaxis and at least one second curvature along a lateral axis. The secondcontact surface 580 includes at least one third curvature along alongitudinal axis and at least one fourth curvature along a lateralaxis. The central contact surface 582 includes at least one curvature.The curvatures of the first and second contact surfaces 578, 580 may be,for example, concave curvatures and the at least one curvature of thecentral contact surface 582 may be, for example, a convex curvature. Thecentral contact surface 582 may provide, for example, stability in amedial-lateral direction. The central contact surface 582 may have, forexample, a height ranging from approximately 1.5 mm and 2 mm. The insert550 may also have a coronal radii and the coronal radii may be, forexample, approximately 1.10 times the coronal radii of the talus. Inaddition, the insert 550 may have at least one sagittal radii. The atleast one sagittal radii of the insert 550 may be, for example, multipletangent and/or continuous radii, which may include varying levels ofconformity with the sagittal radii of the second member 600. Thesagittal radii may have, for example, a range of approximately 25 mm to34 mm for all sizes of the insert 550. More specifically, the sagittalradii may be, for example, approximately 25 mm to 26 mm for the size 1insert 550 and approximately 33 mm to 34 mm for the size 5 insert 550.

Referring now to FIGS. 37, 39-43, 45-49 and 51, the bottom surface 562may also include, for example, a first angled or tapered portion 584 anda second angled or tapered portion 586. The first angled portion 584 maybe, for example, positioned to extend from the first end 552 to theanterior portion of the contact surfaces 578, 580, 582 of the bottomsurface 562 of the insert 550. The second angled portion 586 may be, forexample, positioned to extend from the second end 554 to the posteriorportion of the contact surfaces 578, 580, 582 of the bottom surface 562of the insert 550. The first angled portion 584 and the second angledportion 586 may alternatively be, for example, non-planar surfacesincluding at least one concave or convex curvature. The non-planarsurfaces may, for example, still be angled or tapered between the ends552, 554 and the contact surfaces 578, 580, 582 of the insert 550.

As shown in FIGS. 36-43, when assembled and/or implanted, the topsurface 560 of the insert 550 couples to a bottom surface 522 of thefirst member 510. In addition, the top surface 610 of the second member600 is configured or sized and shaped to articulate with the bottomsurface 562 of the insert 550. Specifically, the medial articulatingsurface 618 of the second member 600 is configured to articulate withthe first contact surface 578 of the insert 550, the lateralarticulating surface 620 of the second member 600 is configured toarticulate with the second contact surface 580 of the insert 550, andthe central portion 622 of the second member 600 is configured toarticulate with the third contact surface 582 of the insert 550.

Referring now to FIGS. 52-63, an implant 650 is shown. The implant 650includes a first member or tibia base 510, an insert 660, and a secondmember, talus component, or articulating member 600. The first member510 and the second member 600 may be of the type described above withreference to implant 500 and FIGS. 36-51. The insert 660 includes a topsurface 670 and a bottom surface 672. The top surface 670 of the insert660 couples to the first member 510 and the bottom surface 672 engagesthe second member 600.

With continued reference to FIGS. 52-63, the insert, bearing insert,polyethylene insert, or articulating insert 660 is shown. The insert 660includes a first end or anterior end 662 opposite a second end orposterior end 664. The insert 660 also includes a first side or medialside 666 opposite a second side or lateral side 668. In addition, theinsert 660 includes a top surface 670 opposite a bottom surface 672. Thefirst end 662 of the insert 660 includes at least one opening orcylinder 674 extending into the insert 660 from the first end 662 towardthe second end 664. The at least one opening 674 may be sized and shapedor configured to receive an instrument or member, for example, afastener or instrument to engage the insert 660 and remove the insert660 from the first member 510. The first and second sides 666, 668 maybe, for example, angled or tapered along at least a portion of the sides666, 668 as the sides 666, 668 extend from the top surface 670 towardthe bottom surface 672, as shown in FIGS. 52, 53, 58 and 59.

With continued reference to FIGS. 56 and 58-62, the top surface 670 ofthe insert 660 is the same or similar to the top surface 560 of theinsert 550. The top surface 670 includes an engagement member orprotrusion 676, which is the same or similar to the engagement member orprotrusion 566. The engagement member 676 includes a first engagementfeature or first male dovetail 678 near the first side 666, which is thesame or similar to the first engagement feature or first male dovetail568 and which will not be described again here in detail for brevitysake. The engagement member 676 also includes a second engagementfeature or second male dovetail 680 near the second side 668, which isthe same or similar to the second engagement feature or second maledovetail 570 and which will not be described again here in detail forbrevity sake. The engagement member 676 may further include a thirdengagement feature or third male dovetail 682 near the second end 664,which is the same or similar to the third engagement feature or thirdmale dovetail 572 and which will not be described again here in detailfor brevity sake. When the insert 660 is coupled to the first member510, the first engagement feature 678 of the insert 660 may beconfigured or sized and shaped to engage the first engagement feature532 of the first member 510, the second engagement feature 680 of theinsert 660 may be configured or sized and shaped to engage the secondengagement feature 534 of the first member 510, and the third engagementfeature 682 of the insert 660 may be configured or sized and shaped toengage the third engagement feature 536 of the first member 510. The topsurface 670 also includes a locking tab or protrusion 686. The lockingtab 686 may be the same or similar to the locking tab 576 of insert 550as described in greater detail above and which will not be describedagain here for brevity sake. The locking tab 686 may be configured orsized and shaped to engage the locking groove 540 of the bottom surface522 of the first member 510.

Referring now to FIGS. 57, 60, 61 and 63, the bottom surface 672 of theinsert 660 includes a first contact surface or medial contact surface688, a second contact surface or lateral contact surface 690, and acentral contact surface 692. The first contact surface 688 extends alongat least a portion of the bottom surface 672 in a medial-lateraldirection from the first side 666 toward the second side 668. The firstcontact surface 688 also extends along at least a portion of the bottomsurface 672 in an anterior-posterior direction from a position near thefirst end 662 toward a position near the second end 662. The secondcontact surface 690 extends along at least a portion of the bottomsurface 672 from the second side 668 toward the first side 666. Thesecond contact surface 690 also extends along at least a portion of thebottom surface 672 in an anterior-posterior direction from a positionnear the first end 662 toward a position near the second end 664. Thecentral contact surface or central sulcus 692 is positioned between thefirst contact surface 688 and the second contact surface 690. Thecentral contact surface 692 also extends along at least a portion of thebottom surface 672 in an anterior-posterior direction from a positionnear the first end 662 toward a position near the second end 664. Thefirst and second contact surfaces 688, 690 form a bi-condylar surface,as shown in FIGS. 52, 53, and 57-59. The centers of the radii of thebi-condylar surface may be, for example, spaced between approximately 18mm and 26 mm for all sizes of the insert 660. More specifically, thecenters of radii of the bi-condylar surface may be, for example,approximately 20 mm for a size 1 insert 660, approximately 22 mm for asize 3 insert 660, and approximately 24 mm for a size 5 insert 660.

With continued reference to FIGS. 57-61 and 63, the first contactsurface 688 includes at least one first curvature along a longitudinalaxis and at least one second curvature along a lateral axis. The secondcontact surface 690 includes at least one third curvature along alongitudinal axis and at least one fourth curvature along a lateralaxis. The central contact surface 692 includes at least one curvature.The curvatures of the first and second contact surfaces 688, 690 may be,for example, concave curvatures and the at least one curvature of thecentral contact surface 692 may be, for example, a convex curvature. Thecentral contact surface 692 may provide, for example, stability in amedial-lateral direction. The central contact surface 692 may have, forexample, a height ranging from approximately 1.5 mm and 2 mm. The insert660 may also have a coronal radii and the coronal radii may be, forexample, approximately 1.10 times the coronal radii of the talus. Inaddition, the insert 660 may have at least one sagittal radii. The atleast one sagittal radii of the insert 660 may be, for example, multipletangent and/or continuous radii, which may include varying levels ofconformity with the sagittal radii of the second member 600. Thesagittal radii may have, for example, a range of approximately 25 mm to34 mm for all sizes of the insert 660. More specifically, the sagittalradii may be, for example, approximately 25 mm to 26 mm for the size 1insert 660 and approximately 33 mm to 34 mm for the size 5 insert 660.

Referring now to FIGS. 53, 54, 55, 57-61 and 63, the bottom surface 672may also include, for example, a first angled or tapered portion 694 anda second angled or tapered portion 696. The first angled portion 694 maybe, for example, positioned to extend from the first end 662 to theanterior portion of the contact surfaces 688, 690, 692 of the bottomsurface 672 of the insert 660. The first angled portion 694 may be, forexample, longer than the first angled portion 584 of the insert 550. Thesecond angled portion 696 may be, for example, positioned to extend fromthe second end 664 to the posterior portion of the contact surfaces 688,690, 692 of the bottom surface 672 of the insert 660. The second angledportion 696 may be, for example, shorter than the second angled portion586 of the insert 550. The first angled portion 694 and the secondangled portion 696 may alternatively be, for example, non-planarsurfaces including at least one concave or convex curvature. Thenon-planar surfaces may, for example, still be angled or tapered betweenthe ends 662, 664 and the contact surfaces 688, 690, 692 of the insert660.

As shown in FIGS. 52-55, when assembled and/or implanted, the topsurface 670 of the insert 660 couples to a bottom surface 522 of thefirst member 510. In addition, the top surface 610 of the second member600 is configured or sized and shaped to articulate with the bottomsurface 672 of the insert 660. Specifically, the medial articulatingsurface 618 of the second member 600 is configured to articulate withthe first contact surface 688 of the insert 660, the lateralarticulating surface 620 of the second member 600 is configured toarticulate with the second contact surface 690 of the insert 660, andthe central portion 622 of the second member 600 is configured toarticulate with the third contact surface 692 of the insert 660. Asshown in FIGS. 54 and 55, the first member 510 and coupled insert 660are positioned on the second member 600 such that the first member 510and insert 660 are shifted in an anterior direction on the second member600. The implant 650 includes an insert 660 to anteriorly shift thefirst member 510 relative to the second member 600 and the neutralpositioning of implant 500.

Referring now to FIGS. 64-75, an implant 700 is shown. The implant 700includes a first member or tibia base 510, an insert 710, and a secondmember, talus component, or articulating member 600. The first member510 and the second member 600 may be of the type described above withreference to implant 500 and FIGS. 36-51. The insert 710 includes a topsurface 720 and a bottom surface 722. The top surface 720 of the insert710 couples to the first member 510 and the bottom surface 722 engagesthe second member 600.

With continued reference to FIGS. 64-75, the insert, bearing insert,polyethylene insert, or articulating insert 710 is shown. The insert 710includes a first end or anterior end 712 opposite a second end orposterior end 714. The insert 710 also includes a first side or medialside 716 opposite a second side or lateral side 718. In addition, theinsert 710 includes a top surface 720 opposite a bottom surface 722. Thefirst end 712 of the insert 710 includes at least one opening orcylinder 724 extending into the insert 710 from the first end 712 towardthe second end 714. The at least one opening 724 may be sized and shapedor configured to receive an instrument or member, for example, afastener or instrument to engage the insert 710 and remove the insert710 from the first member 510. The first and second sides 716, 718 maybe, for example, angled or tapered along at least a portion of the sides716, 718 as the sides 716, 718 extend from the top surface 720 towardthe bottom surface 722, as shown in FIGS. 64, 65, 70 and 71.

With continued reference to FIGS. 68 and 70-74, the top surface 720 ofthe insert 710 is the same or similar to the top surface 560 of theinsert 550 and the top surface 670 of the insert 660. The top surface720 includes an engagement member or protrusion 726, which is the sameor similar to the engagement member or protrusion 566, 676. Theengagement member 726 includes a first engagement feature or first maledovetail 728 near the first side 716, which is the same or similar tothe first engagement feature or first male dovetail 568, 678 and whichwill not be described again here in detail for brevity sake. Theengagement member 726 also includes a second engagement feature orsecond male dovetail 730 near the second side 718, which is the same orsimilar to the second engagement feature or second male dovetail 570,680 and which will not be described again here in detail for brevitysake. The engagement member 676 may further include a third engagementfeature or third male dovetail 732 near the second end 714, which is thesame or similar to the third engagement feature or third male dovetail572, 682 and which will not be described again here in detail forbrevity sake. When the insert 710 is coupled to the first member 510,the first engagement feature 728 of the insert 710 may be configured orsized and shaped to engage the first engagement feature 532 of the firstmember 510, the second engagement feature 730 of the insert 710 may beconfigured or sized and shaped to engage the second engagement feature534 of the first member 510, and the third engagement feature 732 of theinsert 710 may be configured or sized and shaped to engage the thirdengagement feature 536 of the first member 510. The top surface 720 alsoincludes a locking tab or protrusion 736. The locking tab 736 may be thesame or similar to the locking tab 576, 686 of insert 550, 660,respectively, as described in greater detail above and which will not bedescribed again here for brevity sake. The locking tab 736 may beconfigured or sized and shaped to engage the locking groove 540 of thebottom surface 522 of the first member 510.

Referring now to FIGS. 69, 72, 73 and 75, the bottom surface 722 of theinsert 710 includes a first contact surface or medial contact surface738, a second contact surface or lateral contact surface 740, and acentral contact surface 742. The first contact surface 738 extends alongat least a portion of the bottom surface 722 in a medial-lateraldirection from the first side 716 toward the second side 718. The firstcontact surface 738 also extends along at least a portion of the bottomsurface 722 in an anterior-posterior direction from a position near thefirst end 712 toward a position near the second end 714. The secondcontact surface 740 extends along at least a portion of the bottomsurface 722 from the second side 718 toward the first side 716. Thesecond contact surface 740 also extends along at least a portion of thebottom surface 722 in an anterior-posterior direction from a positionnear the first end 712 toward a position near the second end 714. Thecentral contact surface or central sulcus 742 is positioned between thefirst contact surface 738 and the second contact surface 740. Thecentral contact surface 742 also extends along at least a portion of thebottom surface 722 in an anterior-posterior direction from a positionnear the first end 712 toward a position near the second end 714. Thefirst and second contact surfaces 738, 740 form a bi-condylar surface,as shown in FIGS. 64, 65, and 69-71. The centers of the radii of thebi-condylar surface may be, for example, spaced between approximately 18mm and 26 mm for all sizes of the insert 710. More specifically, thecenters of radii of the bi-condylar surface may be, for example,approximately 20 mm for a size 1 insert 710, approximately 22 mm for asize 3 insert 710, and approximately 24 mm for a size 5 insert 710.

With continued reference to FIGS. 69-73 and 75, the first contactsurface 738 includes at least one first curvature along a longitudinalaxis and at least one second curvature along a lateral axis. The secondcontact surface 740 includes at least one third curvature along alongitudinal axis and at least one fourth curvature along a lateralaxis. The central contact surface 742 includes at least one curvature.The curvatures of the first and second contact surfaces 738, 740 may be,for example, concave curvatures and the at least one curvature of thecentral contact surface 742 may be, for example, a convex curvature. Thecentral contact surface 742 may provide, for example, stability in amedial-lateral direction. The central contact surface 742 may have, forexample, a height ranging from approximately 1.5 mm and 2 mm. The insert710 may also have a coronal radii and the coronal radii may be, forexample, approximately 1.10 times the coronal radii of the talus. Inaddition, the insert 710 may have at least one sagittal radii. The atleast one sagittal radii of the insert 710 may be, for example, multipletangent and/or continuous radii, which may include varying levels ofconformity with the sagittal radii of the second member 600. Thesagittal radii may have, for example, a range of approximately 25 mm to34 mm for all sizes of the insert 710. More specifically, the sagittalradii may be, for example, approximately 25 mm to 26 mm for the size 1insert 710 and approximately 33 mm to 34 mm for the size 5 insert 710.

Referring now to FIGS. 65-67, 69-73 and 75, the bottom surface 722 mayalso include, for example, a first angled or tapered portion 744 and asecond angled or tapered portion 746. The first angled portion 744 maybe, for example, positioned to extend from the first end 712 to theanterior portion of the contact surfaces 738, 740, 742 of the bottomsurface 722 of the insert 710. The first angled portion 744 may be, forexample, shorter than the first angled portion 584 of the insert 550 andthe first angled portion 694 of the insert 660. The second angledportion 746 may be, for example, positioned to extend from the secondend 714 to the posterior portion of the contact surfaces 738, 740, 742of the bottom surface 722 of the insert 710. The second angled portion746 may be, for example, longer than the second angled portion 586 ofthe insert 550 and the second angled portion 696 of the insert 660. Thefirst angled portion 744 and the second angled portion 746 mayalternatively be, for example, non-planar surfaces including at leastone concave or convex curvature. The non-planar surfaces may, forexample, still be angled or tapered between the ends 744, 746 and thecontact surfaces 738, 740, 742 of the insert 710.

As shown in FIGS. 64-67, when assembled and/or implanted, the topsurface 720 of the insert 710 couples to a bottom surface 522 of thefirst member 510. In addition, the top surface 610 of the second member600 is configured or sized and shaped to articulate with the bottomsurface 722 of the insert 710. Specifically, the medial articulatingsurface 618 of the second member 600 is configured to articulate withthe first contact surface 738 of the insert 710, the lateralarticulating surface 620 of the second member 600 is configured toarticulate with the second contact surface 740 of the insert 710, andthe central portion 622 of the second member 600 is configured toarticulate with the third contact surface 742 of the insert 710. Asshown in FIGS. 66 and 67, the first member 510 and coupled insert 710are positioned on the second member 600 such that the first member 510and insert 710 are shifted in a posterior direction on the second member600. The implant 700 includes an insert 710 to posteriorly shift thefirst member 510 relative to the second member 600 and the neutralpositioning of implant 500.

Referring now to FIGS. 76-91, another implant 800 is shown. The implant800 includes a first member or tibia base 810, an insert 550, and asecond member, talus component, or articulating member 600. The insert550 and second member 600 are as described in greater detail above andwill not be described again here for brevity sake. The top surface 560of the insert couples to the first member 810 and the bottom surface 562engages the second member 600.

As shown in FIGS. 84-91, the first member 810 includes a first end oranterior end 812 opposite a second end or posterior end 814. The firstmember 810 also includes a first side or medial side 816 opposite asecond side or lateral side 818. In addition, the first member 810includes a top surface 820 opposite a bottom surface 822. The topsurface 820 may be, for example, flat as the top surface 820 extendsbetween the first side 816 and the second side 818, as shown in FIGS.82, 83, 86 and 87. The top surface 820 of the first member 810 may alsoinclude, for example, sloped, tapered, or angled sides on the first side816 and the second side 818 of the first member 810. The angle of thefirst and second sides 816, 818 as they extend away from the top surface820 may be, for example, approximately 8° to 15° from vertical and morespecifically approximately 10° from vertical. The edges of the first andsecond sides 816, 818 of the first member 810 may be, for example,rounded or curved.

As shown in the top view of FIG. 90, the first and second ends 812, 814may include, for example, multiple arc radii as the first and secondends 812, 814 extend between the first side 816 and the second side 818.In an embodiment, the multiple arc radii of the first member 810 may bethe same or similar to the multiple arc radii as described in greaterdetail above with reference to FIG. 35, which will not be describedagain here for brevity sake. In other embodiments the multiple arc radiimay be different as described with respect to FIG. 35.

The first member 810 may have an outer perimeter shape that may be, forexample, a quadrilateral shape, such as, a generally trapezoidal from atop or bottom view, as shown in FIGS. 78, 90 and 91. The first andsecond sides 816, 818 may be generally parallel and the first end 812and second end 814 may be, for example, angled or curved as they extendfrom the first side 816 to the second side 818. In an embodiment, thelength of the first or medial side 816 may be, for example, shorter thanthe length of the second or lateral side 818. The angle or curvature ofthe first end 812 may be, for example, smaller than the angle of thesecond end 814. The top surface 820, first side 816 and second side 818may be, for example, textured or coated to provide afriction-stabilization surface and to allow for bone on-growth. Thetextured surface may be, for example, plasma sprayed biocompatiblematerial, such as, commercially-pure titanium, or another biocompatiblematerial as known by one of ordinary skill in the art.

With continued reference to FIGS. 84-91, the top surface 820 of thefirst member 810 includes at least one peg or vertical peg 524 extendingaway from the top surface 820. The at least one peg 524 may be asdescribed in greater detail above with reference to implant 500 and willnot be described again here for brevity sake.

Referring now to FIGS. 85 and 91, the bottom surface 822 of the firstmember 810 is shown. The bottom surface 822 of the first member 810 maybe the same or similar to the bottom surface 522 of first member 510.Specifically, the bottom surface 822 may include a recessed region orengagement region 528, an engagement channel 530, a first engagementfeature or first female dovetail portion 532, a second engagementfeature or second female dovetail portion 534, a third engagementfeature or third female dovetail portion 536, a slot or removalengagement feature 538, a locking groove 540, each of which is describedin greater detail above with reference to implant 500 and which will notbe described again here for brevity sake.

As shown in FIGS. 76-83, when assembled and/or implanted, the topsurface 560 of the insert 550 couples to a bottom surface 822 of thefirst member 810. In addition, the top surface 610 of the second member600 is configured or sized and shaped to articulate with the bottomsurface 562 of the insert 550. Specifically, the medial articulatingsurface 618 of the second member 600 is configured to articulate withthe first contact surface 578 of the insert 550, the lateralarticulating surface 620 of the second member 600 is configured toarticulate with the second contact surface 580 of the insert 550, andthe central portion 622 of the second member 600 is configured toarticulate with the third contact surface 582 of the insert 550. Asshown in FIGS. 80 and 81, the first member 810 and coupled insert 550are positioned on the second member 600 such that the first member 810and insert 550 are in a neutral position.

Referring now to FIGS. 92-97, shows an implant kit 850. The implant kit850 may include at least one first member 810, at least one first member510, at least one insert 860, at least one second member 600, and atleast one second member 910. Additional inserts 150, 350, 550, 660, 710may also be included in the implant kit 850. Further, additional firstmembers and second members described herein may be included in the kit850 in place of or in addition to first members 510, 810 and secondmembers 600, 910.

With continued reference to FIGS. 92-97, the insert, bearing insert,polyethylene insert, or articulating insert 860 may include a first endor anterior end 862 opposite a second end or posterior end 864. Theinsert 860 also includes a first side or medial side 866 opposite asecond side or lateral side 868. In addition, the insert 860 includes atop surface 870 opposite a bottom surface 872. The first and secondsides 866, 868 may be, for example, angled or tapered along at least aportion of the sides 866, 868 as the sides 866, 868 extend from the topsurface 870 toward the bottom surface 872, as shown in FIGS. 94 and 95.The insert 860 may be, for example, a 20 mm insert.

The insert 860 may also include at least one opening 564 as described ingreater detail above with respect to insert 550 which will not bedescribed again here for brevity sake. The insert 860 may also includean engagement member or protrusion 566 with a first engagement featureor first male dovetail 568 near the first side 866, a second engagementfeature or second male dovetail 570 near the second side 868, and athird engagement feature or third male dovetail 572 near the second end864. The protrusion 566, first engagement feature 568, second engagementfeature 570, and third engagement feature 572 are described in greaterdetail above with reference to insert 550 and will not be describedagain here for brevity sake. The top surface 870 may also include alocking tab or protrusion 576, which is also described in greater detailabove with reference to insert 550 and which will not be described againhere for brevity sake.

The bottom surface 872 of insert 860, as shown in FIGS. 93-97, mayinclude the first contact surface or medial contact surface 578, thesecond contact surface or lateral contact surface 580, and the centralcontact surface 582, as described in greater detail above with referenceto insert 550 and which will not be described again here for brevitysake. The bottom surface 872 may further include the first angled ortapered portion 584 and the second angled or tapered portion 586, asdescribed in greater detail above with reference to insert 550 and whichwill not be described again here for brevity sake.

When assembled and/or implanted, the top surface 870 of the insert 860couples to a bottom surface 522, 822 of a first member 510, 810. Inaddition, the top surface 610 of the second member 600, 910 isconfigured or sized and shaped to articulate with the bottom surface 872of the insert 860. Specifically, the medial articulating surface 618,928 of the second member 600, 910 is configured to articulate with thefirst contact surface 578 of the insert 810, the lateral articulatingsurface 620, 930 of the second member 600, 910 is configured toarticulate with the second contact surface 580 of the insert 860, andthe central portion 622, 932 of the second member 600, 910 is configuredto articulate with the third contact surface 582 of the insert 860.

Referring now to FIGS. 98-113, another implant 900 is shown. The implant900 includes a first member or tibia base 810, an insert 550, and asecond member, talus component, or articulating member 910. The firstmember 810 and insert 550 are as described in greater detail above andwill not be described again here for brevity sake. The top surface 560of the insert couples to the first member 810 and the bottom surface 562engages the second member 910.

As shown in FIGS. 106-113, the second member, talus component orarticulating member 910 has a first end or anterior end 912 opposite asecond end or posterior end 914. The second member 910 also has a firstside or medial side 916 opposite a second side or lateral side 918. Inaddition, the second member 910 has a top surface or articulatingsurface 920 opposite a bottom surface or bone engagement surface 922.The second member 910 may have, for example, a trapezium shape, as shownin FIGS. 100, 101, 112 and 113. The first side 916 and second side 918may be angled as they extend from the top surface 920 to the bottomsurface 922 and the angle may be, for example, approximately 15° to 20°and more preferably approximately 10°. The first side 916 may be, forexample, shorter than the second side 918. As shown in FIGS. 102, 103,and 105, at least a portion of the first and second sides 916, 918 maybe, for example, angled or tapered from the top surface 920 toward thebottom surface 922. The second member 910 includes an anterior recess924 extending into the first end 912. The anterior recess 924 may be,for example, positioned near a midpoint of a lateral axis of the secondmember 910 or, alternatively may be medially biased. The second member910 also includes a posterior recess 926 extending into the second end914. The posterior recess 926 may be, for example, positioned near amidpoint of the lateral axis of the second member 910 or, alternativelymay be medially biased.

As shown in FIGS. 106 and 108-112, the top surface 920 of the secondmember 910 includes a medial articulating surface 928 extending from thefirst side 916 of the second member 910 toward the second side 918. Thetop surface 920 may also include a lateral articulating surface 930extending from the second side 918 of the second member 910 toward thefirst side 916. In addition, the top surface 920 also includes a centralarticulating portion 932 positioned at a point where the medialarticulating surface 928 contacts the lateral articulating surface 930.

The medial articulating surface 928 may include at least one firstcurvature along a longitudinal axis and at least one second curvatureperpendicular to the longitudinal axis, as shown in FIG. 111. Thelateral articulating surface 930 has at least one third curvature alongthe longitudinal axis and at least one fourth curvature perpendicular tothe longitudinal axis. In addition, the central articulating portion 932may have a concave curvature on the top surface 920 of the second member910 and the medial and lateral articulating surfaces 928, 930 may haveconvex curvatures on the top surface 920 of the second member 910. Thearticulating surface 920 of the second member 910 may include, forexample, at least one coronal radii and the at least one coronal radiimay have, for example, a range of approximately 12 mm to 26 mm for asize 1 second member 910, a range of approximately 14 mm to 30 mm for asize 3 second member 910, and a range of approximately 17 mm to 34 mmfor a size 5 second member 910. The articulating surface 920 of thesecond member 910 may include, for example, at least one sagittal radiiand the at least one sagittal radii may have, for example, a range ofapproximately 18 mm to 25 mm for a size 1 second member 910, a range ofapproximately 20 mm to 28 mm for a size 3 second member 910, and a rangeof approximately 21 mm to 30 mm for a size 5 second member 910. In anembodiment, the anterior portion of the second member 910 may include afirst sagittal radius of the lateral articulating surface 930 and asecond sagittal radius of the medial articulating surface 928. The firstsagittal radius may be, for example, larger than the second sagittalradius. In addition, the posterior portion of the second member 910 mayinclude a third sagittal radius of the lateral articulating surface 930and a fourth sagittal radius of the medial articulating surface 928. Thethird sagittal radius may be, for example, smaller than the fourthsagittal radius. A larger anterior lateral sagittal radius than anteriormedial sagittal radius and a smaller posterior lateral sagittal radiusthan posterior medial sagittal radius allow for the joint axis ofrotation to point distally and laterally during dorsiflexion anddistally and medially during plantarflexion.

Referring now to FIGS. 99, 101-105, 107-111, and 113, the bottom surface922 of the second member 910 may be a flat or planar surface. The bottomsurface 922 of the second member 910 may be, for example, coated ortextured with a biocompatible material. The texture or coating may be,for example, a plasma sprayed material, such as, a commercially-puretitanium or other biocompatible material, as known by one of ordinaryskill in the art. The bottom surface 922 of the second member 910 mayalso include at least one stem or peg 934 extending away from the bottomsurface 922, as shown in FIGS. 98, 99, 101-111 and 113. The at least onestem 934 may be, for example, two stems 934, although other numbers ofstems 934 are also contemplated. As depicted, the first stem 934 ispositioned between the anterior recess 924 and the first side 916 andthe second stem 934 is positioned between the anterior recess 924 andthe second side 918, as shown in FIGS. 107 and 113. The stems 934 maybe, for example, positioned slightly medially biased and may be offset,for example, approximately 1 mm from a midpoint of the second member910. The at least one stem 934 may not be, for example, textured orcoated, rather the at least one stem 934 may be smooth to decrease boneresorption at the resection level. The at least one stem 934 may have,for example, a cylindrical, pyramidal, or other quadrilateral prismshape.

Referring now to FIGS. 114-122, the articulation paths of the secondmember, talus component, or articulating member 600 are shown. Althoughnot show, the same or similar articulation paths may also be found onthe second member 910. Referring now to FIGS. 114-116, a midpoint 950extending between the first side 606 and the second side 608 separatesthe anterior articulation 952 and the posterior articulation 954. Asshown in FIG. 115, the anterior articulation 952 curves in a medialdirection and the posterior articulation 954 curves in a lateraldirection. Referring now to FIG. 116, the anterior articulation 952 mayhave a first diameter and the posterior articulation 954 may have asecond diameter. The first diameter may be smaller than the seconddiameter.

Referring now to FIGS. 117-122, the anterior articulation 952 extendsaround a first axis 956 forming a first radius 958 and the posteriorarticulation 954 extends around a second axis 960 forming a secondradius 962. The first axis 956 may intersect the second axis 960. Inaddition, the first radius 958 may be, for example, smaller than thesecond radius 962.

The method shown in FIG. 17 may also be used to insert the implants 500,650, 700, 800, 850, 900. Specifically, the method may include, forexample, obtaining an implant 250 and making an incision to expose ajoint with a first bone and a second bone 252. The implant may be, forexample, an implant 500, 650, 700, 800, 850, 900 as described in greaterdetail above with reference to FIGS. 36-122 and which will not bedescribed again here for brevity sake. The method may also includepreparing the bones for receiving the implant 254. Next, the method mayinclude coupling the first member to the first bone 256 and coupling thesecond member to the second bone 258. Then, the method may includeinserting a second end of the insert into a first end of the firstmember 260. In addition, the method may include engaging a locking tabof the insert with a locking groove of the first member 262. In anembodiment, if the insert needs to be removed or replaced, for example,for a different size or due to wear, an instrument may be inserted intothe slot of the insert to release the locking tab of the insert from thelocking groove of the first member 264. Finally, the method may includeclosing the incision 266.

As may be recognized by those of ordinary skill in the art based on theteachings herein, numerous changes and modifications may be made to theabove-described and other embodiments of the present disclosure withoutdeparting from the scope of the disclosure. The components of theimplants as disclosed in the specification, including the accompanyingabstract and drawings, may be replaced by alternative component(s) orfeature(s), such as those disclosed in another embodiment, which servethe same, equivalent or similar purpose as known by those skilled in theart to achieve the same, equivalent or similar results by suchalternative component(s) or feature(s) to provide a similar function forthe intended purpose. In addition, the implants may include more orfewer components or features than the embodiments as described andillustrated herein. For example, the components and features of FIGS.1-17, FIGS. 18-35, FIGS. 36-51, FIGS. 52-63, FIGS. 64-75, FIGS. 76-91,FIGS. 92-97, and FIGS. 98-113 may be used interchangeably and inalternative combinations as would be modified or altered by one of skillin the art. Specifically, the first members 110, 310, 510, 810, thesecond members 200, 400, 600, 910 and the inserts 150, 350, 550, 660,710, 860 may be used in alternative combinations as would be modified oraltered by one of skill in the art. Accordingly, this detaileddescription of the currently-preferred embodiments is to be taken in anillustrative, as opposed to limiting of the disclosure.

The terminology used herein is for the purpose of describing particularembodiments only and is not intended to be limiting of the disclosure.As used herein, the singular forms “a”, “an” and “the” are intended toinclude the plural forms as well, unless the context clearly indicatesotherwise. It will be further understood that the terms “comprise” (andany form of comprise, such as “comprises” and “comprising”), “have” (andany form of have, such as “has”, and “having”), “include” (and any formof include, such as “includes” and “including”), and “contain” (and anyform of contain, such as “contains” and “containing”) are open-endedlinking verbs. As a result, a method or device that “comprises,” “has,”“includes,” or “contains” one or more steps or elements possesses thoseone or more steps or elements, but is not limited to possessing onlythose one or more steps or elements. Likewise, a step of a method or anelement of a device that “comprises,” “has,” “includes,” or “contains”one or more features possesses those one or more features, but is notlimited to possessing only those one or more features. Furthermore, adevice or structure that is configured in a certain way is configured inat least that way, but may also be configured in ways that are notlisted.

The disclosure has been described with reference to the preferredembodiments. It will be understood that the architectural andoperational embodiments described herein are exemplary of a plurality ofpossible arrangements to provide the same general features,characteristics, and general system operation. Modifications andalterations will occur to others upon a reading and understanding of thepreceding detailed description. It is intended that the disclosure beconstrued as including all such modifications and alterations.

What is claimed is:
 1. An implant, comprising: a first member, whereinthe first member comprises: a first end opposite a second end; a firstside opposite a second side; and a top surface opposite a bottomsurface; a second member, wherein the second member comprises: a firstend opposite a second end; a first side opposite a second side; and atop surface opposite a bottom surface, the top surface comprising: ananterior articulating surface comprising at least one sagittal radius;and a posterior articulating surface comprising at least one sagittalradius; and an insert disposed between the first member and the secondmember.
 2. The implant of claim 1, wherein the at least one sagittalradius of the anterior articulating surface comprises at least a firstsagittal radius and a second sagittal radius.
 3. The implant of claim 2,wherein the first sagittal radius is disposed on at least a medialportion of the anterior articulating surface and the second sagittalradius is disposed on at least a lateral portion of the anteriorarticulating surface.
 4. The implant of claim 3, wherein the firstsagittal radius comprises a first magnitude and the second sagittalradius comprises a second magnitude, wherein the first magnitude is notequal to the second magnitude.
 5. The implant of claim 3, wherein thefirst sagittal radius comprises a first magnitude and the secondsagittal radius comprises a second magnitude, wherein the firstmagnitude of the first sagittal radius is lesser than the secondmagnitude of the second sagittal radius.
 6. The implant of claim 1,wherein the at least one sagittal radius of the posterior articulatingsurface comprises at least a third sagittal radius and a fourth sagittalradius.
 7. The implant of claim 6, wherein the third sagittal radius isdisposed on at least a medial portion of the posterior articulatingsurface and the fourth sagittal radius is disposed on at least a lateralportion of the posterior articulating surface.
 8. The implant of claim7, wherein the third sagittal radius comprises a third magnitude and thefourth sagittal radius comprises a fourth magnitude, wherein the thirdmagnitude is not equal to the fourth magnitude.
 9. The implant of claim7, wherein the third sagittal radius comprises a third magnitude and thefourth sagittal radius comprises a fourth magnitude, wherein the thirdmagnitude is greater than the fourth magnitude.
 10. The implant of claim1, wherein the top surface of the first member further comprises aplurality of arc radii extending between the first and second side ofthe first member.
 11. The implant of claim 1, wherein the top surface ofthe first member further comprises at least one peg extending away fromthe top surface.
 12. An implant, comprising: a first member; a secondmember, wherein the second member comprises: a first end opposite asecond end; a first side opposite a second side; and a top surfaceopposite a bottom surface, the top surface comprising: an anteriorarticulating surface comprising at least a first sagittal radiuscomprising a first magnitude and a second sagittal radius comprising asecond magnitude, wherein the first magnitude is greater than the secondmagnitude; and a posterior articulating surface comprising at least athird sagittal radius comprising a third magnitude and a fourth sagittalradius comprising a fourth magnitude, wherein the fourth magnitude isgreater than the third magnitude; and an insert configured to couplewith the first member and engage with the second member.
 13. The implantof claim 12, wherein the first sagittal radius is disposed on at least alateral portion of the anterior articulating surface and the secondsagittal radius is disposed on at least a medial portion of the anteriorarticulating surface.
 14. The implant of claim 12, wherein the thirdsagittal radius is disposed on at least a lateral portion of theposterior articulating surface and the fourth sagittal radius isdisposed on at least a medial portion of the posterior articulatingsurface.
 15. The implant of claim 12, wherein the first member comprisesa top surface and a first side opposite a second side, said top surfacecomprising a plurality of arc radii extending between the first andsecond side of the first member.
 16. The implant of claim 15, whereinthe top surface of the first member further comprises at least one pegextending away from the top surface.
 17. The implant of claim 12,wherein the first member is a tibial component, and the second member isa talar component.
 18. An implant, comprising: a first component,comprising: a first end opposite a second end; a first side opposite asecond side; and a top surface opposite a bottom surface, the topsurface comprising: an anterior articulating surface comprising: ananterior-medial sagittal radius; and an anterior-lateral sagittalradius, wherein the anterior-lateral sagittal radius is greater than theanterior-medial sagittal radius; and a posterior articulating surfacecomprising: a posterior-medial sagittal radius; and a posterior-lateralsagittal radius, wherein the posterior-medial sagittal radius is greaterthan the posterior-lateral sagittal radius.
 19. The implant of claim 18,wherein the anterior articulating surface extends from the first end toa central portion of the top surface and the posterior articulatingsurface extends from the second end to the central portion of the topsurface.
 20. The implant of claim 19, wherein the anterior-medialsagittal radius and the posterior-medial sagittal radius extend from thefirst side of the implant to a middle portion of the top surface, andthe anterior-lateral sagittal radius and the posterior-lateral sagittalradius extend from the second side of the implant to the middle portionof the top surface.